KR200388790Y1 - Friendly environmental block - Google Patents

Abstract

The present invention relates to an environmentally friendly block capable of stable movement, a large deceleration effect on the flow rate, and to prevent loss of soil, which is formed by forming fastening members at both ends of the frame and the end of the reinforcing member for reinforcing the frame. It is an object of the present invention to provide an eco-friendly block capable of moving, forming a top block having different heights, and having a large deceleration effect on the flow rate, and preventing loss of soil.

In order to achieve the above object, the eco-friendly block according to the present invention is an eco-friendly block including a lower block embedded with a polygonal frame, and an upper block formed on the lower block and formed of a plurality of block combinations. Each corner of the fastening ring is formed, is installed in the lower portion of the frame and includes a reinforcing member that crosses the center of the frame to support the frame.

Description

Green Block {FRIENDLY ENVIRONMENTAL BLOCK}

The present invention relates to an environmentally friendly block installed on a dike or a floor of a river or an oil reservoir, and more particularly, to an environmentally friendly block capable of stable movement, having a large deceleration effect on a flow rate, and preventing loss of soil.

In general, retaining wall facilities or revetment blocks are installed on slopes such as rivers and reservoirs to prevent soil loss or ground erosion due to strong flow rates.

In recent years, land use in river basins is increasing, and as part of this, eco-friendly revetment blocks are used to maintain the natural vegetation state in harmony with the surrounding environment.

1 and 2 are a plan view and a construction state diagram of the revetment block according to the prior art, the conventional revetment block 10 is arranged in a plurality of revetment block 10 in an orderly up and down, left and right, and then the revetment block 10 The fastening ring formed at each corner of the speech is made by using a speech member.

The revetment block 10 is composed of a lower block 12 of the form fixed to the porous metal frame 20 via the porous concrete, and a plurality of unit building blocks 14 fixed on the lower block 12. The unit building block 14 forms a predetermined gap 16 between other adjacent unit building blocks 14, and the gaps 16 are connected to each other and provide a flow path through which water can flow. Here, the frame 20 is made of a large rectangular rebar.

In addition, the unit block 14 is formed in the four corners and the corner of one side fastening ring 22 is formed, and is coupled as a connecting member and the fastening ring 22 of the other revetment block 10 is disposed adjacent to the construction.

However, the conventional revetment block 10 includes a lower block 12 made of porous concrete, but the lower block 12 has a problem in that the lower block 12 is easily lost due to flooding or weather due to weak bonding force with the ground. In addition, since the height of each unit building block 14 is constant and the shape of the flow path is constant, the conventional shore bank 10 is easily lost to the flowing water of the earth and sand filled in the shore bank 10 is a problem. In particular, since the soil is easily flowed into the flow path formed downward, it is difficult to maintain an environment in which vegetation can grow. In addition, in the prior art, it was difficult to connect with the adjacent bank of the eye block 10, a separate dedicated fastening member is required to connect the bank of the bank 10, the manufacturing cost increases. In addition, there is a problem that the rake block 10 is slipping due to the weak bonding force of the rake block 10 during the stacking or transportation for the storage or construction of the rake block 10.

An object of the present invention is to solve the above-mentioned problems of the prior art, by forming a fastening member at both ends of the frame, and the end of the reinforcing member to reinforce the frame is capable of stable movement, the upper block having a different height By forming a large deceleration effect on the flow rate, to provide an eco-friendly block to prevent the loss of soil.

In order to achieve the above object, the eco-friendly block according to the present invention is an eco-friendly block including a lower block embedded with a polygonal frame, and an upper block formed on the lower block and formed of a plurality of block combinations. At each corner of the fastening ring is formed, it is installed in the lower portion of the frame and includes a reinforcing member crossing the center of the frame for supporting the frame.

In addition, a connection ring for inserting the reinforcing member may be formed in the lower portion of the frame. In addition, the block combination preferably has a different height.

The block combination is a central block formed in the center of the lower block, a plurality of peripheral blocks formed around the edge of the lower block, and formed between the peripheral block or the central block is connected in a direction intersecting the flow direction of the flowing water The dam block may be formed between the peripheral block or the central block and may include an auxiliary dam block connected in a direction parallel to the running direction of the flowing water. Here, the central block may be formed equal to or higher than the height of the peripheral block. In addition, the peripheral block may be formed higher than the height of the dam block. In addition, the auxiliary dam block is formed equal to or higher than the height of the dam block, it may be formed lower than the height of the peripheral block. In addition, the lower block may include a space portion formed to be convex upwardly to correspond to the central block. On the other hand, it may include a drainage channel formed in the lower portion of the lower block forming a flow path.

Hereinafter, with reference to the drawings will be described for the eco-friendly block according to the present invention.

3 is a plan view of an eco-friendly block according to the present invention, Figure 4 (a) and (b) and (c) is a cross-sectional view of the A-A line, B-B line, C-C line of FIG.

Eco-friendly block 50 according to the present invention, as shown in Figure 3 and 4, includes a frame 60 of the rectangular shape, the frame 60 is formed so as to surround the lower block 52 The shape is supported by the frame 60.

The lower block 52 is formed in various shapes according to the shape of the frame 60, a plurality of voids 56 are formed therein.

In addition, an upper block 70 formed of a plurality of block combinations 72, 74, 76, and 78 is formed on the lower block 52. The block combinations 72, 74, 76, and 78 of the upper block 70 are formed with a predetermined distance spaced apart from each other, and spaces in which the block combinations 72, 74, 76, and 78 are spaced apart flow water. The euro can be made.

A portion of the flow path is connected to the gap 56 of the lower block 52 and provides a space for vegetation to grow. Preferably, the flow path and the gap 56 are filled with soil, gravel, etc. at a predetermined height, and the vegetation space grows in such vegetation space and takes root to the ground.

On the other hand, the frame 60 is made of a reinforcing member, the reinforcing member includes a circular or rectangular cross section, it may be formed of an empty pipe or the like. In addition, the frame 60 includes an outer member 62 having a rectangular frame shape and an inner member 64 that crosses the opposing surface of the outer member 62.

In addition, a fastening ring 63 is formed at each corner of the frame 60, that is, a portion to which both edges are connected. The fastening ring 63 is coupled by a separate connection member (P) and the fastening ring 63 of the other eco-friendly block 50 adjacent to the construction.

In addition, the lower block 52 is formed with a protrusion 53 covering the fastening ring 63, the protrusion 53 is a fastening ring 63 of the eco-friendly block 50, the fastening ring 63 is different. To maintain a constant distance from the

On the other hand, a reinforcing member 68 for supporting the frame 60 is installed below the frame 60. The reinforcing member 68 is provided with a line connecting the center of both sides of the outer member 62 of the frame 60 and the center of the inner member (64).

To this end, the frame 60 is provided with a plurality of connecting rings (62a, 64a) in the lower portion so that the reinforcing member 68 can be installed in the lower portion. The reinforcing member 68 is inserted into the connecting rings 62a and 64a to support the lower portion of the frame 60. In addition, the portion where the reinforcing member 68 and the frame 60 overlap may be firmly coupled by a binding line. On the other hand, the reinforcing member 68 is inserted into the connecting ring 62a (64a) of the frame 60, it is also possible to be integrally coupled by welding.

Here, the reinforcing member 68 may be formed in a plurality of rows, in the embodiment of the present invention, the reinforcing member 68 is made in a pair, the end is connected to form a fastening ring 69. The fastening ring 69 of the reinforcing member 68 is coupled to the fastening ring 63 formed on the frame 60 of the eco-friendly block 50 adjacent to the construction.

At this time, the fastening ring 69 of the reinforcing member 68 is located below the fastening ring 63 of the frame 60, it is coupled by a separate connection member (P) connecting the fastening ring (63). do. Here, the connection member (P) is made of a corrosion-resistant steel wire including a galvanized iron wire.

On the other hand, the fastening ring 69 of the reinforcing member 68 is disposed with the fastening ring 63 and the triangle formed on both corners of the frame 60, and stably supports the center of gravity of the eco-friendly block 50 during movement do.

In this way, the eco-friendly block 50 is stably moved by the fastening ring 69 of the reinforcing member 68 and the fastening ring 63 of the frame 60, the construction of the frame 60 In a state where the fastening ring 63 is placed first, the fastening ring 69 of the reinforcing member 68 is seated. That is, the fastening ring 63 of the frame 60 is located on the fastening ring 69 of the reinforcing member 68 of the eco-friendly block 50 in the completed construction state.

Meanwhile, the block combinations 72, 74, 76, and 78 of the upper block 70 are formed to have different heights, thereby increasing the contact area with the flowing water and reducing the flow velocity of the water.

The block combinations 72, 74, 76, and 78 include a central block 72 formed at the center of the frame 60, and a plurality of peripheral blocks 74 are formed at the corners of the frame 60. In addition, between the peripheral block 74 or the central block 72 includes a dam block 76 or an auxiliary dam block 78 connecting them to each other. The dam block 76 is connected in a direction crossing the running direction of the flowing water. In addition, the auxiliary dam block 78 is connected in a direction parallel to the running direction of the flowing water.

The central block 72 may be formed to be the same as or higher than the height of the peripheral block 74. Preferably, the central block 72 has a height of the peripheral block 74 so that the flow rate resistance to water is increased. Formed higher.

In addition, the eco-friendly block 50 is formed in the lower portion of the lower block convex upwards 59 to correspond to the central block 72 is formed. The space portion 59 provides a space in which a portion of the central block 72 of the eco-friendly block 50 located at the bottom when stacked or transported for storage or construction of the eco-friendly block 50 is accommodated. Accordingly, the stacked eco-friendly block 50 has a low height of stacking when the central block 72 is inserted into the space 59, and safety is prevented as slippage between the stacked eco-friendly blocks 50 is prevented. Increase even more.

The peripheral block 74 is formed higher than the height of the dam block 76, the dam block 76 connects adjacent peripheral blocks 74 to each other. Accordingly, the flowing water flows over the dam block 76 and flows into the flow path between the peripheral blocks 74 in a state in which the flow velocity of the constant speed is lowered. Accordingly, the loss of earth and sand is reduced in the lower space of the flow path blocked by the dam block 76. In addition, the water flowing into the flow path between the peripheral block 74 is passed through the internal flow path formed by the central block 72 and the peripheral block 74, the flow rate is lowered.

On the other hand, the auxiliary dam block 78 is formed equal to or higher than the height of the dam block 76, it is formed lower than the height of the peripheral block (74). Accordingly, the adjacent peripheral block 74 is connected to the auxiliary dam block 78, thereby forming a flow path in the upper space. In addition, the water flowing through the dam block 76 flows through the flow path. At this time, the earth and sand of the internal space is swept away with the water, but the auxiliary dam block 78 is formed relatively high, that is, higher than the height of the dam block 76, to prevent the soil from flowing down.

The block combinations 72, 74, 76, and 78 of the above-described upper block 70 have a structure in which the height increases in the order of the dam block 76, the auxiliary dam block 78, the peripheral block 74, and the central block 72. Is made of.

On the other hand, the lower portion of the lower block 52 is formed with a drain passage 58 forming a flow path. The drainage path 58 is used as a passage through which water flowing down from a river bank and the like is discharged. The drainage path 58 can prevent drainage of the eco-friendly block 50 by quickly draining the water flowing through the bank.

In addition, in the present invention, the eco-friendly block 50 may be made of concrete, it may be made of porous concrete mixed with gravel and cement. In addition, the eco-friendly block 50 may be used a natural friendly material such as ocher to maintain a natural beauty, it is also possible to be manufactured using a variety of materials, including recycled materials.

5 is a construction state diagram of the eco-friendly block 50 according to the present invention, the eco-friendly block 50 is constructed in a state in which the non-woven fabric is laid on the bottom surface to prevent the loss of soil during construction, such as when the bottom surface or slope of the river do.

In addition, the eco-friendly block 50 is arranged in a lattice shape with the adjacent eco-friendly block 50 is coupled to the fastening ring 63 of the frame 60 by the connection member (P). Preferably, the eco-friendly block 50 may be installed to be staggered with the adjacent eco-friendly block 50. At this time, the fastening ring 63 of the frame 60 of the eco-friendly block 50 is coupled by the fastening ring 69 and the connection member P of the reinforcing member 68 of the other eco-friendly block 50 constructed. .

In addition, FIG. 6 is a construction state diagram in which the eco-friendly block 50 according to the present invention is installed in a meandering river, and the eco-friendly block 50 according to the present invention includes a rectangular eco-friendly block 100 as well as a square. Accordingly, it can be easily installed on the meandering terrain due to the square eco-friendly block 50 and the triangular eco-friendly block 100 when construction on the slope or bottom surface of the meandering river.

Looking at the operation of the eco-friendly block 50 configured as described above are as follows.

First, in a state in which a nonwoven fabric is covered on a bottom surface or an inclined surface of a river, the eco-friendly blocks 50 are arranged in a predetermined form. At this time, the eco-friendly block 50 moves while holding the fastening ring 63 of the frame 60 and the fastening ring 69 of the reinforcing member 68, the fastening ring 63 of the frame 60 is First, it is installed while placing the fastening ring 69 of the reinforcing member 68 in contact with the ground.

The eco-friendly block 50 constructed as described above is filled with soil or gravel in the internal space, and provides an environment in which vegetation can grow. In addition, the eco-friendly block 50 installed in the bottom of the river provides a space for the fish, etc. to move, hatch, or rest through the internal flow path.

On the other hand, the construction of the eco-friendly block 50, when the water flows, the flow rate of the water is reduced by the block combination 72, 74, 76, 78 of the upper block formed protruding to a different height. In the course of passing the flow path between the block combinations 72, 74, 76, and 78, the flow rate is lowered by the dam block 76 that blocks the flow path.

In addition, the eco-friendly block 50 is formed to cross the inlet and the outlet of the inner flow path according to the shape and arrangement of the peripheral block 74, thereby further reducing the flow rate of water introduced into the inner flow path.

On the other hand, the water passing through the dam block 76 passes through the internal flow path of the eco-friendly block 50 is lowered at a constant speed. In addition, water flowing from the upper side passes through the internal flow path of the eco-friendly block 50.

At this time, the eco-friendly block 50 is a part of the earth and sand flows down by the water flowing through the internal flow path, it is caught by the auxiliary dam block 78 formed between the peripheral block 74 does not flow down.

In addition, the above-described eco-friendly block 50 may be installed on the floor surface of the land or sidewalk, as well as the slope of the river or the reservoir. In other words, the eco-friendly block 50 may be used as a sidewalk block, etc. In this case, the block combination of the upper block is formed at the same height, and the voids 56 between the block combinations are filled with earth or gravel and the like to be flat. Preferably, the earth and sand filled in the eco-friendly block 50 is planted with grass, it can be used as a grass block.

As such, since the eco-friendly block 50 used as a sidewalk block or a lawn block is easily drained through the drainage channel 58 formed at the bottom, the eco-friendly block 50 is not easily flooded by rainwater, and provides a comfortable and nature-friendly distance. Can be.

As described above with reference to the illustrated eco-friendly block according to the present invention, the present invention is not limited by the embodiments and drawings described above, in the technical field to which the present invention belongs within the utility model registration claims Of course, various modifications and variations can be made by those skilled in the art.

Eco-friendly block according to the present invention configured as described above is provided with a reinforcing member for supporting the frame in the lower portion of the frame, the fastening ring formed on both ends of the frame and the reinforcing member is arranged to form a triangle, each fastening ring Can easily adjust the center of gravity and move the eco-friendly block stably.

In addition, the eco-friendly block includes a block combination having a different height, it is possible to quickly reduce the flow rate of water, the earth is filled with soil so that the vegetation can grow inside the eco-friendly block is nature-friendly, the inside of the eco-friendly block The flow path is at a certain height to prevent the loss of soil filled in the interior space. In addition, it is possible to quickly drain the water by forming a drainage path in the lower portion of the eco-friendly block, the lower portion of the eco-friendly block is formed in the space portion is inserted into the block combination to increase the bonding strength between the eco-friendly block when stacked or transported, The safety is further improved. In addition, it can be easily fastened using a galvanized steel wire in the state of arranging eco-friendly blocks adjacent to the construction, there is an advantage that the construction is easy, the production cost is low.

1 is a plan view of a revetment block according to the prior art.

Figure 2 is a construction state of the revetment block according to the prior art.

3 is a plan view of an eco-friendly block according to the present invention.

4A, 4B, and 4C are cross-sectional views taken along line A-A, line B-B, and line C-C of FIG.

Figure 5 is a construction state of the eco-friendly block according to the present invention.

Figure 6 is a construction state installed in the meandering stream eco-friendly block according to the present invention.

<Explanation of symbols for the main parts of the drawings>

50: shore block 52: lower block

53: protrusion 56: void

58: drainage channel 60: frame

62: outer member 64: inner member

62a, 64a: hook 63: fastening ring

69: fastening ring 68: reinforcing member

70: upper block 72: center block

74: peripheral block 76: dam block

78: auxiliary dam block

Claims (6)

In the eco-friendly block comprising a lower block embedded with a polygonal frame, and an upper block formed on the lower block and composed of a plurality of block combinations, Fastening rings are formed at each corner of the frame, Eco-friendly block is installed in the lower portion of the frame and comprises a reinforcing member to cross the center of the frame to support the frame. The method according to claim 1, Eco-friendly block, characterized in that the lower portion of the frame is formed with a connecting ring for insertion of the reinforcing member. The method according to claim 1 or 2, The block combination is a central block formed in the center of the lower block, A plurality of peripheral blocks formed around edges of the lower block; A dam block formed between the peripheral block or the central block and connected in a direction crossing the flow direction of the flowing water; It is formed between the peripheral block or the central block eco-friendly block comprising an auxiliary dam block connected in a direction parallel to the running direction of the flow. The method according to claim 3, The central block is formed equal to or higher than the height of the peripheral block, The peripheral block is formed higher than the height of the dam block, The auxiliary dam block is formed of the same or higher than the height of the dam block, the eco-friendly block, characterized in that formed lower than the height of the peripheral block. The method according to claim 3, Eco-friendly block formed in the lower portion of the lower block comprises a convex upwardly corresponding to the central block. The method according to claim 1 or 2, Eco-friendly block characterized in that it comprises a drainage channel formed in the lower portion of the lower block forming a flow path.