KR200363057Y1 - Artificial island for water purification - Google Patents

Abstract

The present invention relates to the structure of artificial aquatic islands installed for the purpose of water purification on the surface of rivers, dams, ponds, lakes, rivers, etc. More specifically, it effectively absorbs nitrogen and phosphorus components in water using porous adsorbents. The present invention relates to a structure of artificial aquatic islands, which concentrates, improves water purification, and helps smooth growth of aquatic plants.

Description

Artificial island for water purification

The present invention relates to the structure of artificial aquatic islands that are installed for the purpose of water purification on the surface of rivers, dams, ponds, lakes, rivers, etc. More specifically, it effectively absorbs and concentrates underwater nitrogen and phosphorus to purify water quality. It relates to the structure of artificial aquatic islands to improve the function and to help the smooth growth of aquatic plants.

As awareness of environmental pollution continues to grow day by day, many researchers continue to work to resolve water pollution in rivers, lakes, and rivers. Pollutants such as rivers, rivers and lakes include pollutants such as livestock waste from livestock houses, domestic sewage, pesticides flowing from farmland and fertilizers, which cause eutrophication of the appeal. Eutrophication refers to a phenomenon in which algae or plankton grow abnormally due to excessive nutrients in rivers due to decomposition of organic matter by microorganisms. Since eutrophication destroys ecosystems of rivers and lakes, killing all living organisms in fresh water, several methods have been tried to prevent eutrophication.

Several methods of water quality improvement are widely known, such as agglomeration or precipitation of contaminants in water using disinfectant and flocculant.Physical and chemical methods are used to pressurize pollutants to the water surface. There is a method of flotation. In addition, a method of improving water quality such as sewage using microorganisms is also widely used.

Recently, in addition to the various water purification methods described above, water purification methods using aquatic plants have attracted the attention of researchers. If nutrients are absorbed through the roots of aquatic plants, such as moon roots, babies, copper herbs, silver grass, and reeds, it will prevent eutrophication of lakes and streams.

The water purification method using aquatic plants shows the effect of improving water quality by preventing eutrophication by ingesting nitrogen and phosphorus in aquatic plants, and the stem part of aquatic plants plays a role of blocking light energy permeation into water. Suppresses excessive breeding. By forming aquatic islands composed of aquatic plants, it is possible to secure habitats and habitats for aquatic insects, birds, and fishes, so that they can prey on aquatic algae to prevent excessive reproduction of algae. Thus, the purpose of water purification of the lake can be achieved in an eco-friendly way, and by creating aquatic islands where the aquatic plants grow, they can also perform beautiful functions as ecological parks.

Conventional techniques related to artificial aquatic islands are disclosed in Patent Publication No. 1997-65423, Utility Model No. 20-202650, Utility Model No. 20-255250, Patent Publication No. 2003-86379 and the like.

However, the published patents or utility models have a disadvantage in that they do not effectively concentrate eutrophication agents such as nitrogen or phosphorus in water. In particular, during the winter dry season, when the water quality deteriorates, the water plants cannot grow smoothly due to low water temperature and temperature, so that the adsorption of nutrients and the growth activity using the same are temporarily stopped.

In addition, the Utility Model No. 211901 is a mixture of loess is mixed with a blowing agent to form a loess granules by rotating molding at a high temperature of 1,000 ℃ or more, and then the loess granules prepared by the above method is secondly heated at 600 ° C to be integrally structured. Disclosed is the creation of a loess vegetation foundation. However, this design has the disadvantage of excessive cost because the process of manufacturing the ocher structure is complicated and the high temperature treatment is required. In addition, the ocher structure has a swell or typhoon when multiple ocher structures are connected to form a wide artificial bankruptcy. In case of hitting the ocher structures due to rain and wind, a problem occurs that is easily broken. Therefore, it is difficult to apply it to dams or large-scale appeals.

Therefore, an object of the present invention is to provide a structure of the water purification system for water purification that can more efficiently remove nitrogen and phosphorus, which are the causes of eutrophication of rivers and lakes.

In addition, an object of the present invention is to provide a water purification plant for water purification that effectively removes contaminants even when water quality deteriorates, such as a dry season.

In addition, an object of the present invention is to provide an artificial myelin sheath, which is applicable to a conventional artificial myelin sheath, to increase water purification efficiency.

In addition, an object of the present invention is to provide an artificial myelin sheath that can perform water purification without being easily damaged even in a bad weather condition.

1 is a structural diagram of a myelin sheath according to an embodiment of the present invention.

2 is a side view of the myelin sheath according to an embodiment of the present invention.

* Description of Drawing Symbols *

10: floating body 20: outer frame

21: base 22: reinforcement frame

30: reticular pad 40: porous adsorbent

50: adsorbent layer 60: fiber mat

70: network layer 80: plant pot planting department

90: weight

In order to achieve the above object, the present inventors have a multi-layered mesh in a conventional artificial aquatic island structure consisting of a float, a support frame made of an outer frame and a wire mesh, and a reticulated pad for supporting and rooting aquatic plants. It has come to devise a hydroponic island for water purification in which a tubular, granular or powdery charcoal or gangue stone layer with high porosity is adsorbed between a pad or a palm fiber mat and a cash support layer.

This design

Floating body (10) to float the myelin island; and

An outer frame 20 connected to the floating body having a predetermined shape such as a square or a hexagon; and

A base network 21 formed inside the outer frame; and

Located on the upper layer of the base network and one or more layers of reticular pad 30 for supporting aquatic plants; and

An adsorbent layer 50 disposed between the reticulated pad layers or above or below the reticulated pad, and including one or more porous adsorbents 40 selected from the group consisting of charcoal, zeolite, and elvan;

It relates to a water purification plant composed of water quality.

In addition, the present invention is characterized in that the porous adsorbent applied to the adsorbent layer is cylindrical, granular or powder with a large surface area. Preferably, by adsorbing and concentrating contaminants in water effectively by using porous adsorbents such as granular or powdered charcoal or elvan, which are not lost between pores such as fiber mats or palm fiber mats and maximize the surface area. By supplying concentrated nitrogen, phosphorus, etc. to the roots of aquatic plants, they can be very helpful in growing and removing pollutants. Porous adsorbents such as charcoal have a wide surface area and can simultaneously play a role as a media for the microorganisms for water purification, so there is no need to install a separate microbial contact media. Porous adsorbents, such as charcoal, are preferred for adsorption and concentration of nutrients in water and for functioning as microbial mediators, since selecting a granule with a small particle size can maximize the surface area.

Adsorbents, such as charcoal, are placed in tight mesh or loose fibrous mat pockets and placed between the top of the base, the top, the bottom of the reticulated pad, or several layers of reticulated pad.

In addition, the present invention by adding a porous adsorbent 40, such as charcoal, zeolite or ganban stone in the lower water of the outer frame or metal mesh, when the water quality is deteriorated, especially in winter, by effectively adsorbing pollutants in the water to improve the water quality improvement effect You can increase it. In addition, porous adsorbents such as charcoal have a large surface area, and can simultaneously play a role as a medium in which microorganisms for water purification can live.

The porous adsorbent is preferably a material with a light specific gravity as possible, such as a whole charcoal or granular charcoal in the net body, and the weight 90 is suspended at the lower end of the porous adsorbent to maintain a vertical state.

Hereinafter, with reference to the accompanying drawings for a water purification plant for water purification according to an embodiment of the present invention will be described in detail.

A water purification system for water purification according to an embodiment of the present invention is an adsorbent layer including a float 10, an outer frame 20, a base network 21, one or more reticular pads 30, and a porous adsorbent 40. It consists of 50.

The floating body 10 is usually bound to the outer frame 20 and serves to float the myelin sheath on the surface in a form surrounding the outer edge of the artificial myelin sheath. The floating body may be bound and disposed only at the outermost side, or may be used in combination with the inner reinforcing frame 22 or the metal net if necessary. In another embodiment, the floating body may be floated while the floating body and the outer frame are connected by a rope and separated from the outer frame. Floating body is usually formed of a material such as HDPE, foamed urethane, styrofoam, stainless steel pipe, PE pipe, foamed synthetic resin material, in the case of synthetic resin pipe material can be used to put styrofoam inside. Floating body is to place concrete structures on the bottom of rivers or lakes, fix anchor blocks to these structures and support them with connecting means such as wire ropes.

The outer frame 20 has a constant shape, such as a square or hexagon, and can connect a plurality of if necessary to form a myelin island of a large area. The outer frame is made of metal such as synthetic resin or stainless steel.

Inside the outer frame 20, the base network 21 is formed densely to form a lower layer of the aquatic plant planting base. The base net is usually made of stainless steel, which does not rust well and is durable even when in contact with water. Reinforcing frame 22 may also be formed on the inner side of the outer frame to support the base network 21. The float can be bound to the reinforcing frame.

One or more reticular pads 30 supporting aquatic plants are located above the base network 21.

The adsorbent layer 50 including at least one porous adsorbent 40 selected from the group consisting of charcoal, zeolite and elvan is located between the multiple reticulated pad layers or above or below the reticulated pad. It is preferable to place it on top of the base net.

An upper end of the adsorbent layer 50 forms a fibrous mat layer and / or a net layer, and a pot containing soil capable of planting aquatic plants is positioned at the upper end of the fibrous mat layer or the net layer.

The aquatic plant planted in the pot can pass the roots to the fiber mat layer or the net layer through the hole below the pot, and can be rooted to the sorbent layer and its bottom. Thus, the roots of aquatic plants not only directly absorb nutrients in water, but also effectively absorb nutrients such as nitrogen and phosphorus, which are absorbed and concentrated by the char of the adsorbent layer.

The aquatic plant by the aquatic plant composition of the present invention is not only smoothly supplied with nutrients adsorbed by porous adsorbents such as charcoal, but also grows faster than the aquatic plants of general aquatic plants by the effect of far-infrared rays emitted by charcoal. Will be able to absorb and use more nutrients.

In addition, the present invention can improve the water purification function and add a microbial habitat environment by lining up the net body filled with whole charcoal, granular or powdered charcoal in the water at the bottom of the floating body or the outer frame or the base network.

According to the present invention, by effectively adsorbing and concentrating the pollutants in the water such as nitrogen and phosphorus to provide the aquatic plants, the smooth growth of the aquatic plants and the resulting increase in the water purification efficiency can be achieved.

In addition, according to the present invention it is possible to adsorb contaminants even in the winter or dry season when the water deterioration is serious, it is possible to increase the water quality improvement effect.

In addition, the present invention can be additionally installed in the conventional artificial part structure, and since it does not require a separate high cost for manufacturing, it is economical and can enhance water purification efficiency.

Claims (3)

Float; and An outer frame connected to the floating body and having a predetermined shape; and A base network formed inside the outer frame; and One or more reticular pads located on the upper layer of the base network to support aquatic plants; and An adsorbent layer disposed between the reticulated pad layers or above or below the reticulated pad, and having at least one porous adsorbent selected from the group consisting of charcoal, zeolite, and elvan; Aquatic islands for water purification, including. The water purification system of claim 1, wherein the porous adsorbent is in the form of particles or powders. The water purification system according to claim 1, wherein a reticular body filled with charcoal or charcoal is vertically installed in the lower body of the floating body, the outer frame or the base network, and a weight is added to the lower end of the charcoal.