KR100927393B1 - Ecological block - Google Patents

Abstract

PURPOSE: An ecological block can offer a wide vegetative space for supplying soil and moisture sufficient for planting. CONSTITUTION: An ecological block(20) comprises a square concrete body(22) of predetermined thickness, a vegetative recess(23) of predetermined depth formed on the concrete body, a reinforcing part(24) which divides the inside of the vegetative recess into multiple sections, a protrusion(25) formed upward along the edge of the vegetative recess, through holes(26,27) formed on the bottom of the vegetative recess, and horizontal holes(28) formed through the side surfaces of the vegetative recess.

Description

Ecological Block {ECOLOGICAL BLOCK}

The present invention relates to an inclined protection concrete block used to build a riverbank or road embankment or retaining wall, and more particularly, to an ecological block having a planting space filled with soil so that plants can germinate or grow in a concrete block. will be.

Most of our streams are straight streams with high dikes on both sides to prevent flooding by Australia and reduce river basins. In particular, due to the large difference in water level between rainfall and dry season, most of the banks have embankments. Such river or road embankment is generally constructed by stacking concrete blocks to prevent the loss of soil and ensure safety.

Recently, due to the global warming, heavy rains have become frequent, and much attention has been focused on river banks. However, if a concrete block is constructed on the banks of rivers or roads, all the slopes of the banks are covered with concrete blocks so that plants and animals cannot grow, which not only damages the river ecosystem but also impairs aesthetics.

1 is a cross-sectional view showing an example of a river embankment constructed with a conventional concrete block.

As shown, the river bank 1 has conventionally protected a slope 3 by stacking a plurality of concrete blocks 10.

The concrete block 10 has the advantage of preventing the loss of the soil of the embankment (1) by rainwater during rainfall and excellent response to the flow rate (flow force) of the increased river during flooding. However, the embankment 1 installed with the conventional concrete block 10 has a problem in that the plant greening is not performed and the concrete block is exposed as it is because the soil in which the plant can grow is small and the water for plant growth cannot be supplied. .

On the other hand, in recent years, there has been a movement to ecologically change rivers. In other words, by restoring Jikgang rivers into stateful rivers, it slows down the flow of water, planting aquatic plants to restore the self-cleaning function, and removes the concrete blocks installed on the banks so that the ecosystems of the rivers are connected to land.

However, if all the concrete blocks in the dike are removed, the dike can be damaged because it cannot cope with the drift force during flooding. Therefore, the solution should be solved in order to reinforce the ecological function while preserving the protection function of the existing concrete block. I'm looking for it.

2 is a perspective view showing an example of an ecological block in which an ecological function is added to an existing concrete block.

As shown, the conventional ecological block 10 is formed by forming the vegetation space 11 at a predetermined depth or penetrating the vegetation space 11 of a predetermined size in a rectangular concrete block.

The ecological block 10 has an advantage that the durability of the block is excellent because the upper surface of the block is mostly made of concrete. However, since the vegetation space 11 formed in the concrete block is too narrow, it is difficult to secure enough soil for plant growth.

In addition, when the vegetation space 11 is formed to a predetermined depth, since the water required for plant growth depends solely on rainwater, there is a problem that the plant dies during the dry season. And when formed by passing through the vegetation space 11 of a predetermined diameter, the roots of the plants planted in the vegetation space 11 is connected to the embankment, so that the water supply is easy, but the corresponding force to the small force is lowered and the penetrated vegetation space 11 There is a problem that the soil of the dike through. Accordingly, in order to prevent the loss of soil, the nonwoven fabric 5 may be entirely provided on the lower portion of the concrete block 10. However, since the nonwoven fabric 5 forms an air layer between the vegetation space 11 and the dike and prevents the roots of the plant from extending, the moisture of the dike is not transferred to the vegetation space 11, causing the plant to die.

On the other hand, another form of the ecological block is a porous ecological block in which aggregates are bonded with cement paste so that plants grow naturally. The porous ecological block has the advantage that the plant can be easily rooted through the gap between the aggregate and the aggregate, but it is made of only gravel and cement, and the strength is weak, and due to the middle blockage of the gap, it is difficult for the root to actually descend to the embankment. Many air layers were formed, so the soil was easily dried and there was a problem of being easily affected by winter cold.

The present invention has been made to solve the problems of the prior art, the main object of the present invention is to provide an ecological block having a wide vegetation space capable of supplying sufficient soil and moisture to plant vegetation.

The present invention also provides an ecological block capable of preventing the roots of plants from being bonded to the surface of the vegetation space so that the soil of the vegetation space is lost by rainwater or river flow.

In addition, another object of the present invention, by minimizing the area of the concrete exposed to the slope of the embankment, not only to improve the aesthetics, but also to increase the vegetation area and to enable the movement of insects or micro-animals can connect the ecosystem of the river to the land To provide ecological blocks.

Another object of the present invention is to provide an ecological block as close to the natural state as possible by applying a natural material such as gravel or crushed stone to the concrete block.

In order to achieve the above object, the ecological block according to the present invention is a rectangular concrete body having a predetermined thickness; A vegetation groove part formed at a predetermined depth on an upper surface of the concrete body; Reinforcing parts for partitioning the inside of the vegetation groove into a plurality of zones; A protrusion installed to protrude upward along an edge of the vegetation groove; It comprises a plurality of through holes formed in the bottom of the vegetation groove portion; Some of the through-holes include a plurality of capillaries with a predetermined length of cloth to transfer moisture of the embankment soil to the vegetation groove by using capillary phenomenon.

In an embodiment of the present invention, the bottom surface of the vegetation groove portion is provided with a plurality of grooves and protrusions.

A plurality of gap grooves are formed in the protrusion at regular intervals.

In the middle of the reinforcing portion is formed an anchor through hole through which the anchor of a predetermined length to be fixed to the soil of the embankment.

Side surfaces of the vegetation grooves are formed with a plurality of horizontal holes penetrating the vegetation grooves.

In another embodiment of the present invention, the protrusion is provided with a plurality of natural stones in a line, the lower end of the natural stone is embedded in the interior of the concrete body, the upper end is exposed to the outside, a constant gap is formed between neighboring natural stones .

In another embodiment of the present invention, a plurality of crushed stone is installed on the bottom surface of the vegetation groove portion, the lower end of the crushed stone is embedded in the interior of the concrete body and the upper end is exposed to the outside, a constant gap between neighboring crushed stone Is formed.

Rods made of a plurality of naturally degradable materials are installed on the bottom surface of the vegetation groove, the lower end of the rod is embedded in the concrete body, the upper end is exposed to the outside, and a constant gap is formed between neighboring rods.

The bottom surface of the vegetation groove portion is provided with a reticulated mat formed with a plurality of wires or wires, the lower end of the wire or reticulated mat is embedded in the interior of the concrete body, the upper end is exposed to the outside, there is a gap between neighboring wires Is formed.

In another embodiment of the present invention, the horizontal hole is characterized in that for fixing the neighboring ecological block through the connection bolt of a predetermined length.

The wick and the anchor is characterized in that it is installed through the nonwoven fabric installed on the bottom of the ecological block,

The protrusion and natural stone of the ecological block is covered with a cover material, characterized in that the mat is installed thereon.

By constructing the embankment of the river or road using the ecological block of the present invention, first, to maximize the vegetation space of the concrete block to benefit the vegetation of plants, second, by minimizing the area of the protrusion exposed to the top of the ecological block It facilitates the reproduction of plants and enables the movement of insects and micro-animals. Third, water can be supplied from the soil of the dike through the wick penetrating the nonwoven fabric installed on the dike. The fifth can be firmly fixed to the embankment. Fifth, by forming the uneven portion on the bottom or inner surface of the vegetation groove portion to prevent the soil of the vegetation groove portion is lost by rain or river flow, and sixth, using natural stones or natural materials The appearance is good and there is an effect to build an environment-friendly embankment.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the ecological block according to the present invention.

First, Figure 3 is a perspective view showing an example of the ecological block according to the present invention.

As shown, the ecological block 20 according to the present invention comprises a rectangular concrete body 22 having a predetermined thickness; A vegetation groove 23 formed at a predetermined depth on an upper surface of the concrete body 22; A reinforcing part 24 for dividing the inside of the vegetation groove part 23 into a plurality of zones; A protrusion 25 integrally installed to protrude upward along the edge of the vegetation groove 23; A plurality of through holes 26 and 27 formed at the bottom of the vegetation groove 23; It is configured to include a horizontal hole 28 formed to penetrate the side of the vegetation groove 23.

Reinforcement is reinforced inside the concrete body 22 so that it can counter the force of force. The thickness and width of the concrete body 22 are determined according to the size of the dike and the size of the convection force. In addition, the concrete body 22 is preferably neutral concrete in which Ca (OH) ₂ does not elute. And the side of the concrete body 22 is provided with a connecting ring 29 for fixing the neighboring ecological block 20. Preferably, four corners of the concrete body 22 are formed with an arc-shaped cutout 121 so that the connecting ring 29 is exposed to the outside. The connecting ring 29 is preferably connected to the reinforcing bar embedded in the concrete body 22.

The vegetation groove 23 is formed to a predetermined depth on the upper surface of the concrete body 22 to provide a space for filling the soil required for vegetation of the plant. The vegetation groove 23 includes a bottom surface 131 and an inner surface 133 of a predetermined size. And the upper end of the inner surface 133, the locking step 135 is formed with a predetermined width.

The reinforcement part 24 divides the inside of the vegetation groove part 23 into a plurality of zones to reinforce the structure of the vegetation groove part 23. The reinforcement part 24 is composed of a plurality of partitions or protrusions having a lattice or a radial shape. Referring to FIG. 3, the reinforcement part 24 includes a partition wall 141 that divides the inside of the vegetation groove part 23 into a lattice shape. Preferably the upper end of the reinforcing portion 24 is located below the protrusion 25 to be described later. In addition, in the center of the vegetation groove 23, an anchor reinforcing hole 142 is integrally formed, and an anchor through hole 27 for penetrating the anchor described later in the reinforcing column 142 is formed.

The protrusion 25 is integrally installed to protrude upward along the rim of the vegetation groove 23. The protrusion 25 prevents the soil filled in the vegetation groove 23 from being lost. Preferably, the projecting portion 25 is made of a lower light narrow, the lower end is wider and the upper end is narrower inclined to minimize the area exposed to the outside, a plurality of gap grooves are formed.

The plurality of through holes 26 formed at the bottom of the vegetation groove 23 are wick through holes for penetrating the wick to absorb moisture using capillary action. This wick through-hole 26 is preferably provided for each space partitioned by the reinforcing portion 24. As such, the ecological block 20 according to the present invention is installed by planting the plant planted by planting the bottom surface 131 in the vegetation groove 23 to prevent the loss of the embankment soil, but to install a wick to supply moisture from the embankment You can prevent your death.

Subsequently, the horizontal hole 28 formed to penetrate the side of the vegetation groove 23 allows the movement of water or micro animals between neighboring ecological blocks 20. In addition, the horizontal hole 28 allows to install a connection bolt for coupling the neighboring ecological block (20).

Figure 4 is a perspective view showing another embodiment of the ecological block according to the present invention, Figure 5 is a cross-sectional view of the ecological block shown in FIG.

As shown, a plurality of protrusions 143 having a lattice shape are formed inside the vegetation groove 23. And the center of the vegetation groove 23 is integrally formed with a reinforcing column 142 is formed with an anchor through hole 27.

As such, the reinforcement part 24 installed in the vegetation groove part 23 not only reinforces the strength of the vegetation groove part 23 but also prevents the soil filled in the vegetation groove part 23 from flowing down. Therefore, the shape and size of the reinforcement part 24 may be configured in various forms according to the size of the ecological block 20, the slope of the embankment and the characteristics of the soil.

A plurality of protrusions 136 are integrally formed on the bottom surface 131 of the vegetation groove part 23. The protrusion 136 is made of concrete and is integrally formed on the bottom surface 131 of the vegetation groove 23 when the ecological block 20 is molded. The protrusion 136 protrudes from the bottom surface 131 to a predetermined length, and a gap is formed between neighboring protrusions 136. Therefore, the protrusion 136 prevents the soil filled in the vegetation groove portion 23 from flowing down, and the plant roots of the vegetation groove portion 23 extend in the gap between the protrusions 136 so that the vegetation groove portion (by the flow of rainwater or river water) 23) prevents the soil from being released or lost.

In addition, a plurality of furrows 137 are formed on the inner side surface 133 of the vegetation groove part 23. The furrow 137 also widens the surface area of the vegetation groove 23 and increases the frictional force to prevent the soil filled in the vegetation groove 23 from flowing down.

A plurality of gap grooves 151 are formed in the protrusion 25. The gap groove 151 minimizes the area of the protrusion 25 that is exposed to the outside and at the same time serves as a root of a plant or a movement path of a micro animal.

Therefore, when the ecological block 20 according to the present embodiment is installed in succession on a slope of a river or a road to construct a slope structure, and a cover material is laid on its front surface, the appearance is natural because there are few exposed surfaces exposed to the surface of the dike. Not only is it easy for small animals to move, and the stem roots of plants can easily grow into neighboring ecological blocks.

6 is a cross-sectional view showing yet another embodiment of an ecological block according to the present invention.

As shown, a plurality of grooves 138 are integrally formed on the bottom surface 131 of the vegetation groove portion 23. The recess 138 is integrally formed on the bottom surface 131 of the vegetation groove 23 when the ecological block 20 is formed of concrete. The groove 138 is formed to a certain depth from the bottom surface 131 to prevent the soil filled in the vegetation groove portion 23 flows down, the plant root of the vegetation groove portion 23 enters the groove 138 to the rain water or The soil of the vegetation groove 23 by the flow of the river is prevented from being separated or lost.

In addition, the protrusion 25 minimizes the area of the upper end exposed to the outside by making the lower end wider and the upper end narrower. In addition, a plurality of gap grooves 151 are formed in the protrusion 25. That is, when the slope structure is constructed on the bank slope or on the bank slope using the ecological block 20 and the cover material is laid on the front surface of the bank, the protrusion is not exposed to the surface of the bank, but when a part of the cover material is lost after time passes. The protrusions may be exposed to the surface of the embankment to minimize the area of concrete exposed in this case.

Next, Figure 7 is a perspective view showing another embodiment of the ecological block according to the present invention, Figure 8 is a cross-sectional view of the ecological block shown in FIG.

As shown, the ecological block 20 according to the present embodiment is configured by using the natural stone 225, the protrusion 25 integrally installed along the rim of the vegetation groove 23.

As shown in the above embodiment, the protrusion 25 is to prevent the soil filled in the vegetation groove 23 to be lost, and to minimize the area of the concrete exposed to the outside. Therefore, when the natural stone 225 of a predetermined size is installed in a line along the rim of the vegetation groove 23, the natural stone 225 performs the same function as the protrusion 25 made of concrete and even if some cover material disposed on the front is lost. ) Can be used to naturally form the appearance of the dike, but also has a much more beneficial effect on the stem roots of plants or the movement of micro-animals.

To this end, as shown in Figure 8, the lower end of the natural stone 225 is embedded in the interior of the concrete body 22, the upper end is exposed to the outside, the interval 226 is formed between the adjacent natural stone 225 do.

In addition, the ecological block 20 according to the present embodiment, the protrusion 136 formed integrally with the bottom surface 131 of the vegetation groove portion 23 is configured using the crushed stone (236).

As shown in the above-described embodiment, the protrusion 136 protrudes from the bottom surface 131 to a predetermined length, and a gap is formed between neighboring protrusions 136, so that the soil filled in the vegetation groove 23 flows. It prevents falling, and the plant roots of the vegetation groove 23 extends into the gap between the projections 136 to prevent the soil of the vegetation groove 23 from being separated or lost by rain or river flow. Therefore, if the crushed stone 236 of a predetermined size is installed on the bottom surface 131 of the vegetation groove 23, not only can perform the same function as the protrusion 136 made of concrete, but rather has a crushed stone 236 having an irregular surface Due to the large surface area and high frictional force, a better effect can be obtained. In addition, in order to increase the surface area of the vegetation groove 23 and make the surface rough, the smaller the size and the narrower the gap, the more advantageous the protrusion 136 using concrete has a limitation in reducing the size and narrowing the gap. 236 is very easy to reduce its size and gap.

To this end, as shown in FIG. 8, the lower end of the crushed stone 236 is embedded in the interior of the concrete body 22 and the upper end is exposed to the outside, and a gap 238 is formed between neighboring natural stones 236. do.

9 is a cross-sectional view showing another embodiment of forming protrusions and grooves on the bottom surface of the vegetation groove portion according to the present invention.

As shown, the ecological block 20 according to the present embodiment, is provided with a plurality of rods 336 of a predetermined length on the bottom surface 131 of the vegetation groove 23. To this end, the lower end of the rod 336 is embedded in the interior of the concrete body 22, the upper end is exposed to the outside, a gap 338 is formed between the neighboring rod 336. Preferably, the rod 336 is made of a naturally degradable material. For example, the material that can be naturally decomposed may include those that can be decomposed in a natural state such as wood, reeds, straws, bamboos, etc., and can continuously provide manure without generating harmful substances after decomposition.

Therefore, the rod 336 made of a natural degradable material performs the same role as the protrusions 136 and 236 at the beginning of the installation of the ecological block 20, and the rods 336 of the natural component are all elapsed after a predetermined time. When decomposed, the groove 138 formed on the surface of the vegetation groove portion 23 and the other may play a role.

10 is a modified embodiment of the projection formed on the bottom surface of the vegetation groove portion according to the present invention, the wire mat or mesh mat 436 having a wire or reticular mat or wire on the bottom surface 131 of the vegetation groove portion 23 If it is. To this end, the lower end of the reticulated mat 436 is embedded in the concrete body 22 and the upper end is exposed to the outside. The wires of the mesh mat 436 are preferably entangled with each other. At this time, the mesh mat 436 may use a natural fiber-decomposable vegetable fiber material or may use synthetic resin. In particular, since the mesh mat 436 made of a plurality of wires is relatively easy to install and has a strong bonding force with the plant roots, the soil of the vegetation groove part 23 is installed after the roots of the plants are propagated by installing the ecological block 20. There is no fear of plant loss.

As described above, the ecological block 20 according to the present invention maximizes the area of the vegetation groove 20, but in order to prevent the soil of the vegetation groove 23 is easily lost, the inside of the vegetation groove 23 The reinforcing part 24 is partitioned, and the bottom surface 131 of the vegetation groove part 20 is formed with an uneven part, and the inner surface 133 of the vegetation groove part 20 is formed with a furrow 137. It widens the surface area of (20) and makes the surface rough.

A method of installing a stone or rod and a reticulated mat on the bottom surface 131 of the vegetation groove 20 or a natural stone at the edge of the vegetation groove 20 will be described briefly.

First, a granular medium is coated on a lower mold with a predetermined thickness. At this time, the granular medium may be any one as long as fluidity and durability are guaranteed, such as sand, loess, and sawdust. Granular media plays a role of fixing natural stone or crushed stone. The granular medium is squeezed by pushing a part of natural stone and crushed stone of a desired size into the granular medium and shaking the lower mold. Then, the cement water or mortar of a predetermined concentration is sprayed thereon and dried to form a coating layer having a predetermined thickness. Prevent this concrete from seeping into the granular media. When this coating layer is sufficiently hardened, concrete is poured on it, and the upper mold is combined to form an ecological block 20 of a desired shape. After removing the ecological block 20 by demolding the upper and lower molds, and removing the granular medium, an ecological block 20 in which a plurality of natural stones, crushed stone, rods or reticulated mats are installed can be obtained.

11A is a cross-sectional view showing another embodiment of the vegetation block 20 according to the present invention, and FIG. 11B is a cross-sectional view showing an ecological net installed on the vegetation block 20 according to the present embodiment. As shown, the fixing pin 124 for fixing the ecological net (eg, coir net) 224 on the upper surface of the protrusion 25 installed to protrude upward along the rim of the vegetation groove portion 23 integrally Is installed.

The fixing pin 124 is integrally installed on the top surface of the protrusion 25 when the vegetation block 20 is formed, or the insertion pin 125 is formed on the top surface of the protrusion 25 and then the ecological net 224. When installing the fixing pin 124 of a predetermined length can be fixed by inserting the insertion hole 24.

11C is a schematic view showing various embodiments of the fixing pin 124 according to the present embodiment. As shown, the upper end of the fixing pin 124 has a hole 124b or a ring 124c for forming a hook portion 124a at the top or through the connecting strap so as to advantageously secure the ecological net 224. Form. In addition, the fixing pin 124 is made of wood or bamboo ash or naturally degradable plastic that can be naturally decomposed after a certain time.

Conventionally, a plurality of vegetation blocks 20 are used to construct an embankment or retaining wall of a river or a road, and then the ecological net 224 is a vegetation block 20 to prevent the cover of the vegetation groove 23 from being washed away by rainwater. ) Above. However, in the related art, the means for fixing the ecological net 224 is not provided separately, so that the ecological net 224 is fixed by tying or skewering the ecological nets 224 together. However, the conventional method for fixing the ecological net 224 has a disadvantage in that the work is difficult and the fixing force is weak.

In this embodiment, the ecological net 224 is more easily formed by installing the fixing pin 124 in the protrusion 25 of the vegetation block 20 or forming the insertion hole 125 into which the fixing pin 124 can be inserted. There is an effect that can be firmly fixed.

Next, Figure 12 is a perspective view showing another embodiment of the vegetation block 20 according to the present invention, as shown, the protrusion 25 of the vegetation block 20 along the rim of the vegetation groove 23 It is integrally installed to protrude upward. The protrusion 25 prevents the soil filled in the vegetation groove 23 from being lost. Preferably, the projecting portion 25 is made of a lower light narrow, the lower end is wider and the upper end is narrower inclined to minimize the area exposed to the outside, a plurality of gap grooves are formed.

13 and 14 show two ways of installing the ecological block 20 according to the invention.

First, FIG. 13 illustrates a case in which square ecological blocks 20 are stacked in a vertical direction, stacked, and connected to each other by connecting wires 29 formed at four corners of the ecological block 20 with wires.

At this time, the up and down neighboring ecological block 20 is installed so that the gap grooves 151 formed in the protrusions 25 which are in contact with each other are staggered. That is, when the gap grooves 151 of the protrusions 25 which are in contact with each other coincide with each other, the soil of the vegetation groove portion 23 is likely to flow down by gravity. Therefore, the ecological block 20 of the present invention preferably forms the gap grooves 151 formed in the protrusions 25 facing up and down alternately with each other. The same applies to the case where the natural stone 225 is provided on the protrusion 25.

In addition, the up and down neighboring ecological block 20 is installed so that the horizontal hole 28 formed on the side that is in contact with each other. That is, when the horizontal holes 28 which contact each other coincide with each other, the soil of the vegetation groove 23 is likely to flow down by gravity. Therefore, the ecological block 20 of the present invention is preferably blocked by a wick in which a capillary tube is formed in the horizontal hole 28 facing up and down.

Subsequently, after stacking rectangular ecological blocks 20, FIG. 14 is used to fix the neighboring ecological blocks 20 using a connection bolt penetrating through the horizontal hole 28 formed on the side of the ecological block 20. to be.

Such rectangular ecological block 20 can be installed on a curved bank by having short sides arranged to the left and right. That is, since the length of the left and right horizontal sides is short, the curve of the embankment can be naturally formed. In addition, since the fixing bolt 128 penetrates the horizontal hole 28 formed on the side surface, it may be provided with an arbitrary distance between neighboring ecological blocks 20. That is, the curve of the levee is naturally formed by easily adjusting the interval between the neighboring ecological blocks 20.

In particular, the rectangular ecological block 20 according to the present invention by forming a plurality of horizontal holes 28 on the side facing up and down when the neighboring ecological block 20 when stacked up and down neighboring ecological block 20 ) Is easily connected to the connecting bolt (128). Therefore, the rectangular ecological block 20 of the present invention can be easily applied to a curved embankment that is wide at the bottom and narrowed to the top.

Finally, Figure 15 is a cross-sectional view showing an example of the river bank constructed as an ecological block 20 according to the present invention.

As shown, the ecological block 20 of the present invention, while stacking a plurality of ecological blocks 20 on the slope of the embankment in which a predetermined nonwoven fabric 5 is installed, each ecological block 20 is a predetermined anchor ( Fix to the slope using 60).

To this end, the anchor 60 is inserted into the embankment through the nonwoven fabric 5 through the anchor through hole 27 formed in the center of the vegetation groove 23 of the ecological block 20. The anchor 60 is made of a metal or plastic material, and consists of a body penetrating the anchor through hole 27 and a head fixed to the upper end of the reinforcing column 142 without passing through the anchor through hole 27. And preferably, the outer circumferential surface of the body is formed with a plurality of engaging projections 63 inclined toward the head integrally so that the anchor 60 once inserted into the soil of the nonwoven fabric 5 and the embankment is very difficult to remove again The ecological block 20 can be firmly fixed.

In addition, the wick 70 having a predetermined length penetrates the wick through hole 26 formed in the bottom surface 131 of the vegetation groove part 23 of the ecological block 20 and is inserted into the soil of the dike. The wick 70 includes a plurality of capillaries with a predetermined length of cloth and transfers the moisture contained in the soil of the dike to the vegetation groove 23 through the capillary phenomenon. To this end, the upper end of the wick 70 is located in the vegetation groove 23 and the other end is embedded in the soil of the slope. For example, the wick 70 may be embedded in the bank by forming a hole in the nonwoven fabric 5 and the slope using a skewer.

Subsequently, the neighboring ecological blocks 20 are connected to each other by using a connecting ring 29 or by using a horizontal hole 28 and a connecting bolt 128, and then, the soil containing seeds is filled in the vegetation groove 23. And the cover material 8 is laid thereon with a predetermined thickness. When the cover material 80 is laid in this way, the ecological block 20 according to the present invention is not exposed to the surface of the dike. And if necessary, the ecological net 224 made of a material that can be naturally decomposed on the surface of the cover material (8) is further installed. The ecological net 224 prevents the soil from being washed away by rainwater before the plants germinate and grow in the vegetation groove 23.

As described above, the ecological block 20 of the present invention maximizes the area of the vegetation groove 23 in which the plant is vegetated, securely fixed by using the anchor 60, and the soil of the dike through the wick 70. By supplying water from the vegetation planted in the vegetation groove 23, the plant grows smoothly without dead.

The present invention also maximizes the surface area and frictional force of the vegetation groove 23 to prevent the soil filled in the vegetation groove is lost.

In addition, the ecological block 20 of the present invention can be connected to the ecology of the river and the terrestrial ecology by enabling the movement of micro-animals and the movement of micro-animals because the concrete is not exposed to the outside.

1 is a cross-sectional view showing an example of a river embankment constructed with a conventional concrete block,

2 is a perspective view showing an example of an ecological block to which an ecological function is added to an existing concrete block;

3 is a perspective view showing an example of an ecological block according to the present invention;

4 is a perspective view showing another embodiment of an ecological block according to the present invention;

5 is a cross-sectional view of the ecological block shown in FIG. 4;

6 is a cross-sectional view showing another embodiment of an ecological block according to the present invention;

7 is a perspective view showing another embodiment of an ecological block according to the present invention;

8 is a cross-sectional view of the ecological block shown in FIG.

9 is a cross-sectional view showing another embodiment of forming a protrusion and a groove in the bottom surface of the vegetation groove portion according to the present invention,

10 is a cross-sectional view showing a modified embodiment of the projection formed on the bottom surface of the vegetation groove according to the present invention,

Figure 11a is a cross-sectional view showing another embodiment of the vegetation block according to the present invention,

11b is a cross-sectional view showing an ecological net installed on a vegetation block according to the present embodiment;

11C is a side view illustrating various embodiments of a fixing pin according to the present embodiment;

12 is a perspective view showing another embodiment of the ecological block according to the present invention;

13 and 14 are a plan view showing a method for installing an ecological block according to the present invention;

15 is a cross-sectional view showing an example of a river embankment constructed with an ecological block according to the present invention.

**** Description of the symbols for the main parts of the drawings *****

20: ecological block 22: concrete body

23: vegetation groove 24: reinforcement

25: protrusions 26, 27: through holes

28: horizontal hole 29: connecting ring

124: fixing pin 131: bottom surface

133: inner side 135: locking jaw

136: protrusion 137: furrow

138: groove 141: bulkhead

142: reinforcement column 224: ecological net

225: natural stone 226: interval

236: crushed stone 336: rod

338: gap 436: reticular mat

Claims (17)

In an ecological block comprising a rectangular concrete body having a predetermined thickness, a vegetation groove portion formed in a predetermined depth on the upper surface of the concrete body, and a reinforcement portion for partitioning the inside of the vegetation groove portion into a plurality of zones, A protrusion formed to protrude upward along an edge of the vegetation groove and having a plurality of angular pole grooves formed at predetermined intervals; A plurality of through holes formed in the bottom of the vegetation groove; An anchor through hole formed in the center of the reinforcement part; A plurality of horizontal holes formed in the side of the vegetation groove to penetrate the vegetation groove; A plurality of fixing pins protruding from an upper surface of the protrusion; It comprises a concave-convex portion integrally formed on the bottom surface of the vegetation groove portion; A portion of the through hole is installed to penetrate the nonwoven fabric installed on the bottom surface of the ecological block to transfer the moisture of the embankment soil to the vegetation groove using a capillary phenomenon, The anchor through hole is installed through the nonwoven fabric installed on the bottom of the ecological block anchor fixing the ecological block to the embankment, The fixing pin is fixed to the ecological net covering the upper surface of the ecological block, The uneven portion formed on the bottom surface of the vegetation groove portion, the lower end is embedded in the interior of the concrete body and fixed integrally, and the upper end is installed to protrude outward so that the soil or plant roots are filled between neighboring protrusions, so that the soil of the vegetation groove portion Ecological block comprising any one selected from a plurality of crushed stone or naturally degradable rods, reticulated mat made of wire or wires to form a gap to prevent the easy separation. delete delete delete delete delete delete delete delete The method of claim 1, The protrusion is covered with a cover material and the ecological block is installed on it. delete delete delete delete delete delete delete

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