KR200464278Y1 - The river water quality purification and fish space make for multi environment block - Google Patents

Abstract

The present invention relates to a multi-functional environment block for river water purification and fishery space creation, which can ensure structural stability by increasing the stiffness of strong flow rates, and can be stably installed even when the width of the river is wide. In addition, it aims to create eco-friendly rivers by promoting the implantation and growth of fish and underwater microorganisms, purifying contaminated river water by the principles of microbial metabolism and catalytic oxidation.
The multi-functional environment block for river water purification and locating space according to the present invention is formed to have a predetermined length and thickness, and is formed to have a plurality of block lower spherical bodies arranged in a plurality on the bottom of the stream, and to have a predetermined length and thickness, Block top spherical spaced to a predetermined interval to the upper portion of the sphere, characterized in that consisting of the partition wall interposed between the block and the lower block to the upper spherical sphere.

Description

Multi-functional Environment Block for River Water Purification and Formation of Spaces {THE RIVER WATER QUALITY PURIFICATION AND FISH SPACE MAKE FOR MULTI ENVIRONMENT BLOCK}

The present invention relates to a multi-functional environmental block for the purification of contaminated river water, to ensure the movement of fish, spawning, and habitat space at the same time, and to improve the water quality of the river and to create a fishery space.

Conventional fish blocks for providing movement, spawning, and habitat for fish are used in rivers and coastal waters for the purpose of creating an artificial environment in which a variety of aquatic species, such as seaweeds, fish and shellfish, can live. These blocks are mainly used mortar block or concrete block body using cement as the main material, it is also used as a connecting block body by connecting a single block body to each other. However, due to the presence of the toxicity of cement, the construction is made in a state in which environmental considerations, such as not being reluctant to directly contact aquatic organisms and failing to secure sufficient space as a living space of aquatic organisms, have not been achieved. Due to, rather

Where a conventional fishery block is disposed, it becomes a facility that aquatic organisms dislike and deteriorates its suitability as an aquatic environment. In particular, the fish block is artificial in an environment in which it is difficult to live in an environment where it is left in a natural state, for example, the flow of water in the sea or a river is too fast, or in a sea area where various artificial buildings, such as a breakwater or a pier, are made. Its utility is especially increased where it is impossible to live without the environment in which aquatic life can live. Nevertheless, in the past, in the name of providing the constituent blocks without environmental considerations, the constituent blocks of a large amount of concrete products were constructed without any research and indiscriminately, but the conventional sorbent blocks were constructed in the above-mentioned places. There are problems that make aquatic life more difficult for many reasons.

The present invention has been devised to solve the above problems of the prior art, it is possible to ensure the structural stability by increasing the stiffness of the strong flow rate, can be installed stably without restriction even in the width of the river The purpose of the present invention is to provide a multifunctional environmental block for river water purification and fishery space creation.

Another object in addition to the present invention is to provide enough space for fish to safely move, spawn, and steal streams, and to allow the fish to be stably installed vertically and horizontally on the bottom surface of the streams along the streams. As the flowing water is dispersed and flowed in various directions, the flow rate is reduced to prevent collapse or loss during sediment and sediment flow or heavy rain, and to make the fish less resistant to water so that it can be easily moved upstream and downstream. It is also to provide a multi-functional environment block for river water purification and creating a fishery space.

Another purpose in addition to the present invention is to harmonize with the environment of the river, and to create a river water purification and fishery space that can resist the flow of the river to generate bubbles and vortices to induce the access of fish inhabiting the river It is also to provide a multifunctional environment block.

In addition to the present invention, another object of the present invention is to promote the implantation and growth of fish and aquatic microorganisms, and to purify polluted river water by the principle of microbial metabolism and catalytic oxidation. It is also to provide multifunctional environmental blocks for composition.

Means of the present invention for achieving the above-described plurality of objects are formed to have a predetermined length and thickness, the bottom block is arranged in a plurality of arranged on the bottom of the stream, and formed to have a constant length and thickness, the bottom of the block Block top spherical spaced to a predetermined interval to the upper portion of the sphere, characterized in that consisting of the partition wall interposed between the block and the lower block to the upper spherical sphere.

According to the multifunctional environment block for water purification and eoso space composition according to the present invention, as the lower block and the upper block to be installed on the bottom surface of the stream is stably coupled through the insertion protrusion, the stiffness for the strong flow rate This increase in the width of the river has an effect that can be installed stably without restriction.

In addition, the lower block blocks and the upper block blocks that are installed on the bottom surface of the stream chain provides the fish with sufficient fishery space for moving, spawning and hiding, and the river water flows in various directions through the fishery space. As the flow rate is reduced, it is effective to prevent collapse or loss during sediment and sediment flow or heavy rain, and to make the fish less resistant to water so that it can be easily moved upstream and downstream.

In addition, a number of protrusions formed in the shape of natural stones are provided on the upper surface of the block upper spherical body to add natural beauty to the environment block, to harmonize with the environment of the river, and to resist the flow of the river water to generate air bubbles and vortices in the river. Induce access to inhabited fish.

In addition, the lower block, the upper block and the partition wall are formed of porous porous concrete to promote the implantation and growth of fish and aquatic microorganisms, thereby purifying contaminated river water by the metabolic action of the microorganism and the catalytic oxidation method. There is an effect that can be created.

1 is a combined perspective view of a multi-functional environment block for river water purification and the construction of an air space according to the present invention.
Figure 2 is a perspective view of the block lower spheres applied to the multi-functional environment block for river water purification and eoso space according to the present invention.
Figure 3 is a perspective view of a partition applied to the multi-functional environment block for river water purification and eocheop space composition according to the present invention.
Figure 4 is a perspective view of the block top spherical structure applied to the multi-functional environmental block for river water purification and the composition of the water in accordance with the present invention.
5 is a view showing a process of combining the multi-function environmental block for river water purification and the composition of the water according to the present invention.
Figure 6 is a front view of the multi-functional environment block for river water purification and the composition of the water in accordance with the present invention.
7 to 11 is an embodiment of a multi-functional environment block for river water purification and the construction of the water reservoir according to the present invention.
12 to 14 is a view showing an installation state according to an embodiment of the multi-functional environment block for river water purification and the fishery space composition according to the present invention.

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

1 is a combined perspective view of a multi-functional environmental block for river water purification and eoso space composition according to the present invention, Figure 2 is a perspective view of a block lower sphere applied to a multi-functional environmental block for river water purification and eoso space composition according to the present invention, Figure 3 Is a perspective view of a partition wall applied to the multi-functional environmental block for river water purification and eoso space composition according to the present invention, Figure 4 is a perspective view of a block upper spherical sphere applied to the multi-functional environmental block for river water purification and eoso space composition according to the present invention, Figure 5 Figure 7 is a view showing a process of combining the multi-functional environmental block for river water purification and eoso space composition according to the present invention, Figure 6 is a front view of the multi-functional environment block for river water purification and eoso space composition, Figures 7 to 11 An embodiment of a multi-functional environment block for river water purification and locating space according to the present invention, FIGS. 12 to 14 River water purification and Associates space in accordance Sung a view showing an installation state according to an embodiment of the multi-function environment block.

As shown in FIG. 1 to FIG. 4, the multi-functional environment block for river water purification and locating space according to the present invention is composed of a block lower spherical body 10, a block upper spherical body 20, and a partition wall 30. .

The lower block 10 is formed in a flat rectangular shape having a predetermined length and thickness and arranged in plurality on the bottom surface of the stream.

On the upper surface of the lower block sphere 10 is formed a plurality of connecting protrusions 11 of a rectangular shape having a predetermined thickness in the longitudinal direction are formed at regular intervals.

Thus, as shown in Figure 6, between the connecting projection 11, the connecting groove (11a) is inserted into the lower portion of the partition 30 to be described later, and the fishery space that can move, spawn, hide 40 is formed.

The block upper spherical body 20 is formed in a flat rectangular shape having a constant length and thickness, and is positioned to be spaced apart from each other by a predetermined interval above the block lower spherical body 10.

On the bottom surface of the block upper spherical body 20 is formed a connection protrusion 21 having the same function as being located on a vertical line with the connecting protrusion 11 of the block lower spherical body 10.

At this time, the connection grooves 11a and 21a into which the partition wall 30 is inserted and fixed to form the eoso space 40 have a plurality of connection protrusions 11 and 21 spaced apart at regular intervals. At this time, any one pair of connecting protrusions 11 and 21 forming the connecting grooves 11a and 21a and the other pair of connecting protrusions 11 and 21 adjacent thereto have a gap between the connecting grooves 11a and 21a. It is formed to be wider than the spacing so that the fish can provide a sufficient fishery space 40 without disturbing when moving, spawning, or hiding through the fishery space (40).

The partition wall 30 is formed in a pair, and the lower part is inserted into and fixed to the connecting groove 11a of the lower block 10, and the upper part is inserted into and fixed to the connecting groove 21a of the upper block 20. While supporting the upper sphere 20, the lower block sphere 10 and the upper block sphere 20 is coupled.

When the upper and lower portions of the partition wall 30 are manufactured to have the same size as the connection grooves 11a and 21a of the block lower sphere 10 and the block upper sphere 20 and inserted into the connection grooves 11a and 21a. The upper and lower parts of the partition wall 30 are manufactured to be slimmer than the upper and lower parts so that the upper and lower portions of the partition wall 30 are not separated from the block lower sphere 10 and the block upper sphere 20. It is desirable to.

In addition, although not shown in the drawing, an opening (not shown) is further formed on a side surface of the partition 30, and an additional space (not shown) communicating with the opening is further formed inside the partition 30. By allowing fish to spawn and hide, they may provide a suitable environment for fish to live.

The block lower sphere 10, the block upper sphere 20 and the partition 30 is preferably formed of porous porous concrete to promote the implantation and growth of fish and aquatic microorganisms in accordance with the principles of metabolism and catalytic oxidation of microorganisms. By purifying the contaminated river water, it is desirable to make an eco-friendly river or to form recycled concrete to reduce material costs and prevent pollution of the source.

Meanwhile, FIG. 5 shows an embodiment in which the environmental block 1 of the present invention is constructed. First, the bottom surface of the river is flattened, and then the lower block 10 is placed on the bottom surface.

Then, the lower part of the partition wall 30 is inserted into and fixed to the connecting groove 11a of the lower block spherical member 10, and then the upper part of the partition wall 30 is inserted into and fixed to the connecting groove 21a of the upper block member 20. The construction of one circular block is completed, and the environmental block 1 is serially constructed in accordance with the design height around the environmental block 1 constructed through the above process.

As described above, the environmental block 1 that is constructed in series allows the water flowing along the stream to flow through the plurality of eoso spaces 40 as shown in FIGS. 12 to 14, so that when the river water is contaminated, the contact surface with the river water is formed. In addition to maximizing and more efficiently purifying contaminated river water, the fishery space 40 reduces the flow rate of water to prevent collapse or loss during sediment and sediment flow or heavy rain, and the resistance of fish to water An easy to move upstream and downstream of the river by receiving less, and easy to move to fish with a weak leap or relatively small size while the fish can move, spawn, stealth, etc. (40) It can provide enough.

Figure 7 shows an embodiment of the block lower sphere 10 and the block upper sphere 20 constituting the environmental block according to the present invention, one side surface of the block lower sphere 10 and the block upper sphere 20 It is further provided with insertion grooves (12, 22) and the other side is formed in the same position as the insertion grooves (12, 22) protruding to form the insertion projections (13, 23) in the horizontal direction block lower sphere 10 and the upper block The block lower spherical body 10 is more stably fixed by fitting the insertion protrusions 13 and 23 of the sphere 20 into the different block lower spherical body 10 and the insertion grooves 12 and 22 of the block upper spherical body 20. And it can be coupled to connect the block upper sphere 20 in a chain.

Since the insertion protrusions 13 and 23 of the block lower sphere 10 and the block upper sphere 20 are fitted into the insertion grooves 12 and 22, the environmental block 1 has increased stiffness against strong flow rates. Structural stability can be secured, and the environment block 1 can be stably installed through the insertion protrusions 13 and 23 and the insertion grooves 12 and 22 even when the width of the river is wide.

10 and 11 show another embodiment of the block upper spherical body 20 constituting the environmental block according to the present invention, the lower surface of the partition wall 30 is inserted into the upper surface of the block upper spherical body 20 is fixed to the connection As the grooves 21a 'are formed, a plurality of connecting protrusions 21' are formed at regular intervals to allow the fish to move, spawn, and hide, so that the environmental block 1 can be built in multiple stages. Accordingly, the water flowing along the river flows in a variety of directions through the Associate Space 40, and can provide more Associates 40 to the fish.

8 and 9 show that a plurality of protrusions 24 are provided on the upper surface of the block upper spherical body 20. The protrusions 24 are formed in a natural stone shape to add natural beauty to the environment block to harmonize with the river environment. It is possible to achieve, and by resisting the flow of river water to generate bubbles and vortices to induce the access of fish inhabit the river.

1: environment block 10: block bottom sphere
11,21,21 ': Connecting protrusion 11a, 21a, 21a': Connecting groove
12,22: Insertion groove 13,23: Insertion protrusion
20: block upper spherical body 24: protrusion
30: bulkhead 40: fishery space

Claims (6)

A block lower spherical body 10 formed to have a predetermined length and thickness and arranged in plurality in a bottom of the river; A block upper spherical body 20 formed to have a predetermined length and thickness and spaced apart at a predetermined interval from an upper portion of the block lower spherical body 10; And partition walls 30 interposed between the block lower spherical body 10 and the block upper spherical body 20 so as to support the upper block upper spherical body 20. A plurality of connecting protrusions are formed on the bottom surface of the sphere 20 so that the connecting grooves 11a and 21a into which the upper and lower portions of the partition 30 are inserted and fixed are formed so that fish may move or hide. (11, 21) is spaced apart at regular intervals, one side of the lower block block 10 and the upper block block 20 is further provided with insertion grooves (12, 22), the other side insertion projections (13) , 23 is protruded in the horizontal direction and the insertion protrusions (13, 23) is fixed to the insertion grooves (12, 22), so that the block lower sphere 10 and the block upper sphere 20 is coupled to a plurality On the upper surface of the block upper spherical body 20, a connecting groove 21a 'is formed in which the lower portion of the partition 30 is inserted and fixed, and thus the fish moves. And a plurality of connecting lugs (21 ') to be formed is Associates space 40 for hiding are formed spaced at predetermined intervals,
The upper surface of the block upper spherical body 20 is a multi-functional environmental block for river water purification and the composition of the river water, characterized in that it is further provided with a plurality of protrusions 24 formed in a natural stone shape. delete delete delete delete delete

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