KR101223436B1 - Water quality improvement equipment using submerged plant - Google Patents

Abstract

The present invention has been proposed for water quality management of small rivers and waterways, and aims to improve river water quality and ecological environment using submerged plants. In particular, the present invention can easily introduce the water purification function of submerged plants to existing waterways or rivers using the soil seed of the submerged plants, to manage the water quality of the rivers, to remove the nitrogen and phosphorus in the waterway to grow algae It is a water quality improvement facility using a new type of submerged plant that can maintain the level of water level effective for the growth of the submerged plant through the water level control function.

Description

Water Quality Improvement Facility Using Submerged Plants {WATER QUALITY IMPROVEMENT EQUIPMENT USING SUBMERGED PLANT}

The present invention relates to water quality improvement facilities of rivers, and more specifically, to replace or supplement existing device-type facilities in places where water quality management such as rivers restored to ecological rivers or small rivers and artificial waterways in cities or suburbs is essential. The present invention relates to a water quality improvement facility using submerged plants which restores the ecological function of and effectively improves the quality of rivers.

Most rivers in Korea have weak waterfront structures, so it is very likely that nonpoint pollutants will directly enter the main stream or tributaries of the river. Recently, water quality problems have occurred in urban small rivers or ecological waterways restored to ecological rivers. However, most non-point source management facilities in urban areas are prefered to be device type, and natural type is rarely introduced, and small streams or waterways have no way to be treated in river waterways once they enter rivers. . Therefore, a facility that directly improves the quality of the river by directly introducing it into a waterway or a small river instead of the existing device type can be applied very effectively to river water quality management. In particular, most of the waterways are made of concrete or landscaped stone, and the introduction of natural facilities that can improve the ecological function of rivers in addition to water quality management under conditions of poor growth environment supplies primary producers to artificially created or restored water ecosystems. This can improve the ecological function of the river. Natural non-point source management facilities developed in Korea are artificial plant-oriented wetland, which requires a lot of space for introduction, so it is difficult to introduce them into small rivers or artificial waterways.

Conventional inventions include ecological environment protection and water purification channels (Korean Patent Publication No. 10-0677939), as shown in FIG. 1, which is composed of a bottom portion 1 and a side wall portion 2 formed of concrete, The socket part 3 and the coupling part 4 are provided at both ends, and a plurality of holes 5 are formed in the bottom part 1 and the side wall part 2, and the holes of the bottom part 1 ( 5) The space portion 7 is formed through the lower portion, the soil portion 7 is filled with the soil (9) mixed with the seeds of the aquatic plant (8), the hole 5 in the side wall portion (2) It is the structure provided with the space part which communicates inside. The ecological environment protection and water purification can be used to improve the water quality of the river using the submerged plants as in the present invention, the water level is lowered in the waterway, when the water is dry, the environment in which aquatic plants can grow is destroyed, this There is a problem that it takes a long time to recover. In addition, it cannot be directly introduced into existing rivers where waterways are installed, and even if the existing waterways are removed and introduced, the installation process can not only destroy existing ecosystems, but also requires considerable cost and time. There is a problem.

In order to solve the above problems, the present invention provides a water quality improvement facility using submerged plants to improve the river water quality and ecological environment by using the submerged plant soil seed, while maintaining the existing waterway or river facilities The task is to provide a water quality improvement facility using submerged plants that can easily introduce and manage water quality improvement functions using submerged plants. It is another object of the present invention to provide a water quality improvement facility using a submerged plant, which is capable of controlling the water level by itself and maintains an optimal level for the growth of the submerged plant even under changes in the external environment such as weather conditions. In another aspect, the present invention is to provide a water quality improvement equipment using a new type of submerged plants that can be separated and the assembly process is simple, easy to maintain and manage.

Water quality improvement equipment using the submerged plants of the present invention for achieving the above object is the water level control unit 10 for adjusting the water level of the waterway and the soil soil seed receiving unit 20 and the water level control for storing the soil seed of the submerged plant It characterized in that it comprises a coupling member 30 for coupling the portion 10 and the soil seed storage portion 20.

In the water quality improvement facility using the submerged plants according to the present invention, the water level control unit 10 is connected to the body 11 and the body, wings 12 and the length is adjusted toward the waterway side 300 It comprises a support 13 is coupled to the soil seed storage 20 and the coupling member holding holder 14 for fixing the coupling member 30, the wing 12, the channel side 300 It characterized in that it comprises an elastic member 15 so that the wing 12 is in close contact.

In such a water quality improvement facility using a submerged plant according to the present invention, the soil seed storage unit 20 is configured to include a tray 21 and a cover 24 covering the tray 21, the tray ( 21 is a connection hole 23 and the fixing hole for connecting the fixing hole 22 for fixing the soil seed storage unit 20 to the waterway surface 200 and the plurality of soil seed storage units 20. It comprises a fixing member 25 is coupled to the waterway surface 200 through the 22, the connection portion 23 is characterized in that also coupled to the coupling member (30).

In the water quality improvement facility using the submerged plants according to the present invention, the submerged plants, characterized in that consisting of one or more of crucian carp, black horse, horse, screw, water loofah.

In such a water quality improvement facility using a submerged plant according to the present invention, the soil seed storage unit 20 is characterized in that the storage of the soil seed or a mixture of soil soil and soil 50 to 50 at a ratio of 50 to 50. do.

Since the water quality improvement equipment using the submerged plants of the present invention is not limited to the installation space, it is possible to easily introduce the water purification function to existing small rivers or artificial waterways by using the soil soil seed of the submerged plants, By providing a structure that can inhabit submerged plants, an ecological environment can be created and maintained, and natural purification ability by submerged plants reduces nitrogen, phosphorus and nutrients, resulting in an excellent water purification effect. It is effective in improving the ecological function of rivers by removing algae and restraining the growth of algae. The water level control function can maintain the level of water effective for the growth of submerged plants. It saves time and has an economic advantage. It is fast and effective for secondary pollution such as bioaccumulation and ecosystem destruction. There is that effect.

1 is a perspective view and a cross-sectional view of a conventional waterway for ecological environment protection and water purification.
Figure 2 is a perspective view of the water quality improvement equipment using submerged plants in accordance with a preferred embodiment of the present invention.
Figure 3 is a perspective view of the water level control unit applied to the water quality improvement equipment using the submerged plants of FIG.
Figure 4 is an illustration of the operating state of the water level control unit applied to the water quality improvement equipment using the submerged plants of FIG.
5 is a perspective view of the soil seed storage unit applied to the water quality improvement facility using the submerged plants of FIG.
6 is an exploded perspective view of the soil seed storage unit applied to the water quality improvement facility using the submerged plants of FIG.
FIG. 7 is an exemplary view of installing a water quality improvement facility using a submerged plant of FIG. 2 in a waterway. FIG.
8 is a side cross-sectional view of an example in which a water quality improvement facility using the submerged plants of FIG. 2 is installed in a waterway.
9 is an exemplary view showing a submerged plant introduced into the waterway to evaluate the water quality improvement effect of the present invention.
Figure 10 is a chart showing the growth rate according to the ratio of the soil seed of the submerged plants applied to the present invention.
Figure 11 is a chart showing the growth rate according to the water level control of submerged plants applied to the present invention.
12 is a table showing the nitrogen removal effect in the waterway according to the present invention.
Fig. 13 is a diagram showing the effect of phosphorus removal in the channel according to the present invention.
Figure 14 is a chart showing the algae inhibition effect in the waterway according to the present invention.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and effect of the preferred embodiment of the present invention.

Figure 2 illustrates a water quality improvement equipment using a submerged plant according to a preferred embodiment of the present invention, the water quality improvement equipment using the submerged plants so that it can be easily connected to a concrete structure such as existing waterways or small rivers or artificial waterways It is formed in the form of a grid, the water level control unit 10 for adjusting the water level of the channel and the soil seed storage unit 20 for accommodating the soil seed of the submerged plant and the water level control unit 10 and the soil seed storage unit 20 It is configured to include a coupling member 30 for coupling.

The water level control unit 10, even if the water level of the river connected to the water channel is lowered, the water level of the water channel is not lowered, and prevents the movement of water from the water channel to the river, the minimum level to maintain the water level to effectively grow submerged plants It is formed at a height of 30 cm or more. In addition, as shown in Figures 3 and 4, the water level control unit 10 is connected to the body 11 and the body to adjust the length toward the channel side 300 so that it can be applied even if the width is different for each channel. It is composed of a wing 12, the body 11 is a space for accommodating the wing 12 is open to the side can be applied by adjusting the length to fit the width of the channel by sliding out the wing 12. . Attaching the elastic member 15 to the side end of the wing 12 to be the same as the height of the wing 12, even if the channel side 300 is in contact with the wing 12 is uneven, the wing 12 and the channel side It can be supplemented so that a gap does not arise in the 300.

In addition, the water level control unit 10 is connected to the soil seed storage unit 20 in order to be fixed so as not to be swept away in the stream, as shown in (b) of Figure 3 and 8, The support part 13 which is opened to the lower end in the form of a 'b' at the lower end of the body 11 of the water level control part 10 where the side of the tray 21 of the native plant storage part 20 and the side of the water level control part 10 abut. ) Is formed and fixed to the side wall of the tray 21 in contact with the water level control unit (10).

As illustrated in FIGS. 5 and 6, the soil seed storage unit 20 includes a tray 21 for accommodating the soil seed, and the soil soil seed stored in the tray 21 so as not to be swept away by water. And a lid 24 covering and protecting the tray 21.

The tray 21 has a depth of 10 cm or more to accommodate the soil seed of the submerged plant, and a fixing member on the lower side of the tray 21 to fix the soil seed storage part 20 to the waterway ground 200. A plurality of fixing holes 22 into which 25 can be inserted are formed. As shown in FIG. 8, a plurality of grooves into which the fixing member 25 can be inserted are also formed in the waterway surface 200, so that the fixing member 25 is formed in the fixing hole 22 and the waterway ground 200. Inserted into the groove, the tray 21 is fixed to the ground. In addition, the tray 21 is not a concrete material, such as the surface of the waterway surface 200 is hard, but when installed on the ground covered with gravel or soil, such as the bottom of the river and river piles longer than the fixing member 25 It can be fixed to the ground using.

In addition, the soil seed storage unit 20, as shown in Figs. 5 and 8 (a), the top of the side wall of the tray 21 to be used by connecting a plurality of soil seed storage unit 20. Forming a plurality of connecting portion 23 is opened to the bottom in the form of 'b', the connecting portion 23 can be fixed by inserting into the side wall of the tray 20 of the other soil seed storage unit 20.

The coupling member 30 is a means for compensating the coupling between the water level control unit 10 and the soil seed storage unit 20, as shown in FIG. 2, both ends of the coupling member 30. In order to connect the water level control unit 10 and the soil seed storage unit 20, respectively, a plurality of coupling member fixing holders 14 are formed at the upper end of the water level control unit 10, and in the soil seed storage unit 20 The connection part 23 formed in the form of a on the side wall of the tray 21 is used. The coupling member 30 inserts the support 13 of the water level control unit 10 into the side wall of the tray 21 of the soil seed storage unit 20, and then attaches one end to each of the coupling member fixing holders 14. And the other end is fixed to the connecting portion 23 of the tray 21, so that the upper end as well as the lower end of the water level control unit 10 is firmly coupled to the soil seed storage unit 20.

In addition, submerged plants that can be applied to the water quality improvement equipment of the present invention, submerged such as carp (Ceratophyllum demersum), black horse (Hydrilla verticilata), Malm (Potamogeton cripus), screw (Vallisneria natan), water scrubber (Myriophyllum verticillatum) It may be composed of one or more of the plants, the soil seed storage unit 20 is stored in the form of the soil seed or mixed in the ratio of 50 to 50 of the soil seed and the general soil, as shown in the example of FIG. As a result, germination and growth in the channel can remove contaminants from the channel.

10 and 11 are diagrams showing the growth effect of submerged plants according to the growth conditions, Figure 10 is a chart showing the growth effect of the crucian carp (Ceratophyllum demersum) and black horse (Hydrilla verticilata) in accordance with the ratio of soil seed and common soil In accordance with the type of soil seed, by adjusting the ratio of soil seed and general soil, or by selecting and selecting the soil seed according to the environment in the channel, it can be seen that the submerged plants grow more effectively, Figure 11 This chart shows the results of water level control experiments for the effective growth of submerged plants. The submerged plants are more submerged than the waterlogged submerged plants. The longer it is, the more noticeable the difference remains. The present invention, while reflecting the results of the experiment shown in Figures 10 and 11, selects the ratio of the soil and general soil and submerged plants that can best meet the growth conditions, the optimum level control for effective growth of the submerged plants Through this, it provides a growth environment that can maximize the water purification effect as described above.

12 to 14 are diagrams showing the nitrogen, phosphorus removal effect and algae suppression effect in the channel according to the present invention, respectively, the introduced submerged plants according to the present invention by controlling the concentration of dissolved oxygen in the stream aerobic Anaerobic fluctuations can induce a chain reaction of nitrification and denitrification. Nitric acid produced by nitrification is effectively absorbed by submerged plants. In anaerobic conditions, denitrification can be induced to permanently remove nitrogen from the stream. Can be. In this aerobic and anaerobic chain process, it can perform functions similar to natural SBR (Sequential Batch Reactor) and A2O (Anerobic-Anoxic-Oxic) process that can remove organic substances in the water body. In addition, the pH change of water bodies due to photosynthesis of submerged plants affects the behavior of phosphorus in the water bodies. In the proposed plant, it is removed by direct absorption by submerged plants and precipitation by mainly pH changes. In addition, when immersed plants dominate, they suppress the occurrence of algae. Once the plants are in place, they inhibit the growth of algae in the process of competition for nutrients and light in the water.

With the above configuration, the present invention can easily introduce the water purification function to existing small rivers or artificial waterways by using the soil seed of the submerged plants, and an ecological environment in which the submerged plants can be inhabited in the existing waterways can be created and maintained. In addition, the water level control function provides water quality improvement facilities that can maintain the effective level of water level for the growth of submerged plants.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: water level control unit 11: body
12 wing 13 support part
14: coupling member fixing holder 15: elastic member
20: soil seed storage 21: tray
22: fixing hole 23: connection portion
24: cover 25: fixing member
30: coupling member 100: water quality improvement equipment using submerged plants
200: channel surface 300: channel side

Claims (5)

A water level control unit 10 for adjusting the water level of the channel;
A landfill seed storage unit 20 for storing landfill seeds of submerged plants;
A coupling member 30 for coupling the water level control unit 10 and the soil seed storage unit 20; Including but not limited to
The water level control unit 10;
A body 11;
A wing 12 connected to the body and having a length adjusted toward the channel side 300;
A support 13 coupled to the soil seed storage 20;
A coupling member fixing holder (14) for fixing the coupling member (30); Is configured to include,
The wing 12,
An elastic member 15 such that the wing 12 is in close contact with the channel side 300; Water quality improvement equipment using a submerged plant, characterized in that it comprises.
delete The method of claim 1,
The soil seed storage unit 20,
A tray 21;
A cover 24 covering the tray 21; Including but not limited to
The tray 21,
A fixing hole 22 for fixing the seed seed storage unit 20 to the waterway surface 200;
A connection part 23 for connecting a plurality of soil seed storage parts 20;
A fixing member 25 penetrating the fixing hole 22 and coupled to the channel surface 200; Including,
The connecting portion 23,
Water quality improvement equipment using submerged plants, characterized in that also coupled to the coupling member (30).
The method of claim 1,
The submerged plant,
Water quality improvement equipment using submerged plants, characterized in that comprises at least one of crucian carp, black horse, horse, screw, water loofah.
The method of claim 1,
The soil seed storage unit 20
A water quality improvement facility using a submerged plant, characterized in that for storing the soil seed or a mixture of the soil seed and the general soil at a ratio of 50 to 50.

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