KR101189251B1 - Block assembly for purification of water - Google Patents

Abstract

The present invention is formed by a permeable material, the block 110 is formed with a receiving space therein; By presenting a block assembly 100 for water purification, which includes a microorganism fixing part 120 mounted in the receiving space so that microorganisms capable of degrading contaminants are fixed and inhabited, biochemical purification by high efficiency microorganisms is taken. At the same time, the loss of microorganisms is high, the activity is high, and there is little risk of deterioration even after a long period of time.

Description

BLOCK ASSEMBLY FOR PURIFICATION OF WATER

The present invention relates to the field of environmental technology, and more particularly, to a water purification apparatus using microorganisms.

In order to purify the water quality of the river, the device or structure installed on the shore or the bottom of the river includes a method of increasing the amount of dissolved oxygen by inducing aeration, a method of inducing natural reduction of pollutants by allowing vegetation, and Biological methods have been developed to impregnate microorganisms so that they can reduce contaminants.

Among them, a biological method using microorganisms has been recognized for its high efficiency due to its high purification efficiency and easy maintenance.

Currently developed technology is to impregnate the microorganisms directly into the porous block, and to install the block in the stream to induce purification.

However, such conventional methods have been pointed out such that the loss of microorganisms, microorganisms are directly impregnated in the porous block, the activity is lowered, and the function is reduced when the deposit is accumulated in the porous block.

The present invention has been derived to solve the above problems, while taking a biochemical purification method with high efficiency microorganisms, the loss of microorganisms, high activity, water quality with a low risk of functional degradation even if hardened for a long time It is an object to present a block assembly for purification.

The present invention, in order to achieve the object as described above, is formed of a water-permeable material, the block 110 is formed with a receiving space therein; In order to fix and inhabit microorganisms capable of degrading contaminants, the microbial fixing unit 120 mounted in the accommodation space is provided.

The block 110 is preferably formed of a permeable concrete material.

The block 110 is a through hole 111 is formed in the vertical direction, the receiving space is preferably formed by the through hole 111.

The microorganism fixing part 120 is preferably formed to cover the inner surface of the through hole 111.

The microorganism fixing part 120 is preferably formed of a water permeable structure.

The microorganism fixing part 120 preferably includes a microbial adsorption part 121 formed by coating a cation generating material.

The microorganism fixing part 120 preferably includes a microbial attachment portion 122 formed by a fiber material.

The microorganism fixing unit 120 preferably includes a microbial capture unit 123 formed by a material capable of capturing microorganisms therein.

Further provided with a microorganism supply member 130 is installed through the through hole 111, the microorganism attached to the microorganism supply member 130 is preferably moved to the microorganism fixing part 120 by flowing water.

The microorganism supply member 130 is a stopper 131 is installed in the opening of the through hole 111; It is preferable to include; microorganism charging unit 132 mounted below the stopper 131 to move the microorganisms and to fill the microorganism fixing unit 120.

The microbial charging unit 132 is preferably formed of a ciliated structure.

The present invention is the block assembly for water purification (100); In addition to being installed on the bottom of the river, the projection member 210 is inserted into the through-hole 111 of the block assembly 100, the fixing member 200 is formed on the upper surface;

The present invention provides a block assembly for water purification, which takes a biochemical purification method with high efficiency microorganisms, reduces the loss of microorganisms, has high activity, and has a low risk of deterioration even after a long period of time.

Figure 1 below shows an embodiment of the present invention,
1 is a perspective view of a first embodiment of a block assembly;
2 is a sectional view of a first embodiment of a block assembly;
3 is a perspective view of a microorganism supply member.
4 is a sectional view of a second embodiment of a block assembly;
5 is a perspective view of a first embodiment of a water purification structure.
6 is a plan view of a second embodiment of a water purification structure.

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

As shown in FIG. 1, the block assembly 100 for purifying water according to the present invention basically includes a block 110 formed of a water permeable material and having an accommodation space therein; It is configured to include; microorganism fixing unit 120 mounted in the receiving space so that microorganisms capable of degrading contaminants are fixed.

That is, rather than impregnating the microorganisms directly into the block as in the prior art, forming a receiving space in the block 110, the microorganism fixing unit 120 (carrier) is formed that can be fixed and inhabit the microorganisms separately in the receiving space It was made possible.

The main contaminants in rivers phosphate ion (PO ₄ ^2-), nitrate ion (NO ₃ ^-) can be referred to, and other heavy metals, and bacteria.

If taking the structure according to the present invention, a phosphate of the above pollutant ion (PO ₄ ^2-), nitrate ion (NO ₃ ^-) it was removed by the microorganisms fixed to the microorganism fixing unit 120, and other heavy metals, bacteria block As it is removed by the pores of 110, there is a basic effect that efficient purification of the main contaminants of the stream is possible.

Furthermore, this adds the following effects.

First, since the microorganism fixing part 120 in which the microorganisms are fixedly mounted is protected by being mounted in the inner receiving space of the block 110, the risk of loss of microorganisms due to running water is reduced.

Second, because the microorganisms are not impregnated in the block, but inhabit the separate microorganism fixing unit 120, as the activity is increased, high purification efficiency can be expected.

Third, since the contaminants of the fresh water are physically purified while penetrating the pores of the permeable block 110 firstly, and are biologically purified by the microorganisms of the microorganism fixing part 120 secondly, efficient purification is possible even if a long time passes. There is little possibility of function deterioration.

Fourth, since it takes the shape of a simple block, it is possible to easily install at any position of the river bank or the bottom of the river, and it is possible to secure high processing efficiency for the river front end surface.

Block 110 is a structure that can be installed in the lake or the bottom of the river by the permeable material, any configuration that can protect the internal microorganism fixing unit 120, regardless of the configuration, using a permeable concrete material This is desirable in that all of the above requirements can be satisfied.

The through hole 111 is formed in the up and down direction of the block 110, and the accommodation space for accommodating the microorganism fixing part 120 has a configuration formed by the through hole 111. While it is possible to purify by the block 110 and the microorganism fixing unit 120, the advantage that it is easy to replace, repair, etc. of the microorganism fixing unit 120 through the upper and lower trimming of the through hole 111 is added. (Fig. 1,2).

In this case, the microorganism fixing part 120 is preferably formed to cover the inner surface of the through hole 111 for stable attachment.

The microorganism fixing unit 120 may be formed by various materials. When the microorganism fixing unit 120 is formed of a permeable material, the flowing water may be purified while penetrating the microorganism fixing unit 120 a plurality of times, and thus, the purification efficiency may be improved. Is added.

As microorganisms take on the properties of anions, they have a strong adsorption property on cation generating materials.

Therefore, when the microorganism fixing unit 120 includes a microorganism adsorption unit 121 formed by coating a cation generating material (a salt containing Fe, Al, Mn, etc.), the microorganisms are strongly adsorbed, so that The advantage is that the loss can be reduced.

In addition, since the microorganism generally has a high hydrophobicity (property to attach to solid in water because it is not intimate with water), the microorganism fixing part 120 is formed by the microorganism attachment part 122 made of a fiber material (nonwoven fabric, etc.) having a large specific surface area. When forming, there is an advantage that the probability of adhesion of the microorganism increases.

On the other hand, alginated (alginic acid), such as a little at a high temperature (50 ~ 60 ℃) to maintain a gel state, but at room temperature to maintain a solid state, it is characterized in that it is easy to capture microorganisms inside or outside.

Therefore, the microorganism fixing unit 120 may also be formed by a structure including a microorganism capture unit 123 formed by a material capable of capturing microorganisms as described above.

The microorganism adsorption unit 121, the microorganism attachment unit 122, and the microorganism capture unit 123 may form the microorganism fixing unit 120 as a separate structure, respectively, or may be formed by a combination of two or more thereof.

For example, the above-described microbial adsorption part 121 may be formed by coating a cation generating material directly on the inner surface of the through hole 111 of the block 110, and attaching the microorganisms mounted on the inner surface of the through hole 111 of the block 110. It may be formed by coating the inner surface of the portion 122 or the microorganism trap 123.

By only the above-described structure, by fixing the microorganisms to the microorganism fixing unit 120 will be able to achieve the object of the present invention sufficiently, the separate microorganism supply member 130 through the through hole 111 of the block 110 Taking the configuration in which is installed, an advantage is added that makes it easier to install and maintain the structure.

In addition, since the microorganisms attached to the microorganism supply member 130 may move to the microorganism fixing unit 120 by flowing water, the microorganism supply member 130 and the microorganism fixing unit 120 do not necessarily have to be in contact with each other. .

Here, the microorganism supply member 130, the stopper 131 is installed in the opening of the through hole 111; It can be implemented by a structure comprising a; microorganism charging unit 132 mounted on the lower side of the stopper 131 to move the microorganisms to fill the microorganism fixing unit 120 (FIG. 3).

Here, the 'moving microorganisms and filling the microbial fixing unit 120' is to immerse the microbial filling unit 132 for a predetermined time in a tank in which microorganisms are cultured, and then lift it up and through holes 111 of the block 110. It means supplying microorganisms by a method such as being placed in.

The microbial charging unit 132 is a member for temporarily fixing the microorganisms to be positioned in the through hole 111 of the block 110 and then moving the microorganisms to the microorganism fixing unit 120 by flowing water. The configuration of the adsorption part 121, the microorganism attachment part 122, and the microorganism capture part 123 may be applied.

However, the microorganism fixing unit 120 is a structure that is fixed to the microorganisms to continue to purify the flow of water, the microorganism charging unit 132 is to serve to temporarily fix the microorganisms to transport to the block 110, too microorganisms It is not necessary to take this strongly fixed structure.

Therefore, the microbial filling unit 132 is preferably a structure in which a microbial carrier such as cube or bead is filled in a water permeable material, a cilia-shaped carrier formed of a material and a structure having a large specific surface area.

In this structure, the microorganisms attached to the microorganism charging unit 132 is moved to the microorganism fixing unit 120 naturally by flowing water and fixedly formatted, and then performs the biological purification function as described above.

In the state in which the microbial filling unit 132 is mounted in the through hole 111 of the block 110, the purification function for the flowing water passing through the through hole 111 may be performed together with the microorganism fixing unit 120. to be.

The block assembly 100 according to the present invention can be installed in the bottom or lake of a river in a variety of ways.

When the block assembly 100 is installed at the bottom of the river, the protruding key 210 is fixed to the bottom of the river first fixed member 200 formed on the upper surface, the upper protrusion key 210 of the block assembly 100 It is preferable to take the manner of inserting and fixing the through hole 111 in view of convenience of work and structural stability (FIG. 5).

In addition, when installing a plurality of block assemblies 100, zigzag arrangement is preferable in terms of not disturbing the flow of water flow (FIG. 6).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: block assembly for water purification 110: block
111: through hole 120: microorganism fixing part
121: microorganism adsorption unit 122: microorganism attachment unit
123: microorganism trap 130: microorganism supply member
131: stopper 132: microorganism charging unit
200: fixing member 210: protruding key

Claims (12)

Block 110 is formed by a permeable material, the receiving space is formed therein;
And a microorganism fixing part 120 mounted in the accommodation space so that microorganisms capable of degrading contaminants are fixed and inhabited.
The block 110 has a through hole 111 is formed in the vertical direction, the receiving space is formed by the through hole 111,
The microorganism fixing part 120 is formed by coating to cover the inner surface of the through hole 111,
The microorganism fixing part 120 is a block assembly for water purification, characterized in that formed in a water-permeable structure. The method of claim 1,
The block 110 is a block assembly for water purification, characterized in that formed by a permeable concrete material. delete delete delete The method of claim 1,
The microorganism fixing unit 120 is a block assembly for water purification, characterized in that it comprises a microorganism adsorption unit (121) formed by the coating of the cation generating material. The method of claim 1,
The microorganism fixing part 120 is a block assembly for water purification, characterized in that it comprises a microbial attachment portion 122 formed by a fiber material. The method of claim 1,
The microorganism fixing unit 120 is a block assembly for water purification, characterized in that it comprises a microbial capture unit 123 formed by a material capable of capturing microorganisms therein. The method of claim 1,
Further provided with a microorganism supply member 130 is installed through the through hole 111,
The microorganism attached to the microorganism supply member 130 moves to the microorganism fixing unit 120 by flowing water. 10. The method of claim 9,
The microorganism supply member 130
A stopper 131 installed on a trimming portion of the through hole 111;
A microbial charging unit 132 mounted below the stopper 131 to move the microorganisms and to fill the microbial fixing unit 120;
Block assembly for water purification, characterized in that it comprises a. The method of claim 10,
The microorganism charging unit 132 is a block assembly for water purification, characterized in that formed in a ciliated structure. Claim 1, 2, 6 to 11 of any one of the block assembly for water purification (100);
In addition to being installed at the bottom of the river, the fixing member 200 formed on the upper surface of the protrusion key 210 is inserted into the through hole 111 of the block assembly 100;
Water purification structure comprising.

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