KR100288049B1 - Apparatus for purifying a river by a microbial contact utilizing an elastic body - Google Patents

Abstract

The present invention provides a pair of microbial contact material support rods for installing microbial contact material on both floors of the stream to be constructed, and a pair of bar bars installed between the microbial contact material support rods to bind the microbial contact material, and the diaphragm. Microbial contact material installed between the bed, the cable tie for binding the microbial contact material upstream and downstream in the water flow direction on both side bars and an elastic unit for connecting the microbial contact material with the cable tie, characterized in that it comprises a By providing a stream purification device, the device of the present invention is simple and inexpensive construction, easy to maintain, and buried phenomenon of the microbial contact material, the portion of the part attached to the river bottom by keeping the tension of the microbial contact material tightly Desorption of microorganisms by anaerobic and water flow is reduced, which has the advantage of improving the stream purification efficiency.

Description

River Purification Apparatus Using Microorganism Contact Material Using Elastomers

The present invention relates to a stream purification apparatus using a microbial contact material using an elastic body, and more particularly, by connecting the microbial contact material to a cable tie so that elasticity is maintained using an elastic body unit. The present invention relates to a stream purification apparatus using a microorganism contact material using an elastic body, wherein the efficiency of river purification is improved by overcoming burial of contact materials, anaerobicization of parts in contact with river bottoms, and desorption by water flow. .

As the industry develops and the standard of living improves, the generation of wastewater such as various industrial wastewater, household sewage, and livestock wastewater is increasing rapidly. In addition, the contaminated river water pollutes small rivers, reservoirs, and water supplies, causing green algae and red tide in coastal waters due to eutrophication, leading to many problems such as a drop in catches.

Basically, in order to improve the water quality of rivers and lakes, it is desirable to purify the water quality from the source of discharge pollutant or to transfer the waste water from the source of discharge to the sewage treatment plant. However, the installation of a sewage pipe or a sewage treatment plant requires a huge budget, and in case of a point source, there are few problems, but in the case of a leak or non-point source of sewage pipe, there is no measure. Accordingly, many methods for directly purifying rivers have been developed and are being constructed / implemented in rivers.

However, most river purification methods known to date have a disadvantage in that they cannot cope with changes in rivers. The quantity of rivers is not always constant, but has a characteristic of fluctuating flow rate according to the dry season and the flood season. Especially, the rivers in Korea are characterized by a large amount of sediment spills and a lot of garbage dumps.

Regarding the method of purifying a river, a number of patents are disclosed, for example, Japanese Patent Application Laid-Open No. 60-71096, Japanese Patent Application Laid-Open No. 60-94195, Korean Patent Publication No. 90-9455, East 95-24975, East 97-20976, Although 98-25909, 9797989883, 97979885, Korean Utility Model Publication No. 97-17912, etc. are disclosed, the above-described prior art method is a separate fixed large-scale construct to purify the river. It has a disadvantage that must be formed, and the structure is buried or occluded by the soil leakage.

In addition, Japanese Patent Laid-Open Nos. 60-71695, 60-160196, and 9-38676 have a disadvantage of insufficient countermeasures against soil leakage as a method of fixing them to rivers. Korean Utility Model Publication No. 97-54719 proposed a method of installing a device that can rise and fall in the water surface and replace the filling contents as an alternative to supplement the problems of the soil leakage, but there is still a countermeasure against soil leakage. It is insufficient and the shape of the structure has the problem of reducing the flow cross-sectional area of the river.

As mentioned above, the above-mentioned prior arts often use solid materials such as gravel / waste tire / concrete as a material for purifying rivers, and often have a small surface area and a large civil construction cost due to installation. In addition, these methods have limitations that are difficult to apply in urban rivers or covered rivers with high pollution.

As a method of solving this problem, a method of using a rope-type microbial contact material has been proposed, but the method using a rope-type microbial contact material has no elasticity, so that the cable tie or hose band is pulled strongly at the beginning of installation. Even when tied to the back, when the weight of the contact material is increased by absorbing moisture or by attaching microorganisms, the microbial contact material sags to the riverbed. When the microbial contact material installed as described above sags, it is buried in the soil, and the part contacting the bottom part of the river is anaeroded. As the shaking is severed by the water flow, the attached microorganisms are detached, resulting in a decrease in river purification efficiency. .

SUMMARY OF THE INVENTION An object of the present invention is to overcome the above-mentioned problems in the prior art, by providing an elastic unit made of a microorganism contact member and a cable tie, which is capable of continuously maintaining tension while pulling the rope-type microorganism contact member in tightly, It is to provide a stream purification apparatus that can increase the treatment efficiency by preventing the contact material is not buried in the earth and the microbial contact material by the anaerobic contact with the sewer surface due to the sag and the shaking of the microbial contact material due to water flow.

That is, the present invention is a pair of microbial contact material support rods for installing microbial contact material on both floors of the stream to be installed, and a pair of horizontal bars installed between the microbial contact material support rods to bind the microbial contact material, And a microbial contact member installed between the bar bars, a cable tie for binding the microbial contact material to both side bars from upstream to downstream in the water flow direction, and an elastic unit connecting the microbial contact material to the cable tie. It is to provide a river purification device.

1 is a schematic view of an elastic unit in a stream purification apparatus of the present invention,

Figure 2 is a schematic view of the connection and assembly method of the microbial contact material according to the present invention,

3 is a construction schematic of the stream purification apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: hook part 2: spring part

3: ring portion 10; Elastomer Unit

11: microbial contact material 13: bar

12: microbial contact support rod 14: cable tie

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

In the stream purification apparatus of the present invention in the river purification device in which the bar is fixed between the rope-type microbial contact material support rod dred deeply on both bottoms of the river and the rope-type microbial contact material is bound by the cable tie in the water flow direction on both side bars. And, by including an elastic unit comprising an elastic body for connecting the microbial contact material and the cable tie, it is characterized in that the microbial contact material is not buried in the soil and shaken in the water stream.

In the present invention, an elastic body may be used that has elasticity, such as springs, rubber bands, elastic fibers. 1 is a schematic diagram of one embodiment of an elastic unit of a stream purification apparatus of the present invention in the form of a spring. As shown in FIG. 1, the elastic unit 10 includes a hook portion 1 attached to a cross bar; A spring part 2 which gives a tension along with a cushioning role; And a ring portion 3 that binds to the microbial contact material. In the embodiment of the spring form shown in FIG. 1, various metal materials may be used as the material of the elastic body, but it is particularly preferable to use stainless steel 304 having good rust resistance and good elastic recovery force.

Rope-type microbial contact member 11 used in the present invention is a synthetic fiber BCF multifilament loop and synthetic fiber monofilament yarn loops are formed around the core portion, the loop fixing yarn is wound around to fix them, Although the form in particular is not restrict | limited, It is good that many loops are formed radially around a core part, In addition, what has a loop formed bidirectionally around a core part can also be used.

2 is a schematic diagram of a method of connecting and assembling microbial contact materials by an elastomer unit according to the present invention. When the microbial contact material is connected, the microbial contact material 11 is inserted into the loop portion 3 of the elastic unit of the present invention and then firmly bound with a cable tie 14 or the like, and the hook part 1 is interposed with the bar 13. Connect to and connect

3 is a construction schematic of the stream purification apparatus according to the present invention. In the case of applying the method of the present invention, first, a part of the stream to be constructed is divided into a drop bulletin, and a dredged rope-type microbial contact support rod is deeply dredged at both bottoms of the stream, and then between these microbial contact support rods. The bar should be fixed. Subsequently, as described above with reference to FIG.

In the stream cleaning apparatus of the present invention, the support rod and the bar rod may be made of wood, plastic, or steel, but it is most preferable to use a stainless steel sheet having excellent rigidity and corrosion resistance. In addition, the microbial contact member support bar and the bar can be used in the form of a square or round pipe, the circular pipe shape is not affected by the water flow.

The stream cleaning device according to the present invention has a simple and fast construction and thus has a low cost effect. The anaerobic generation of the part attached to the bottom of the river does not get buried in soil due to the tension of the microbial contact material. It does not, and there is little desorption by water flow, and it has an outstanding effect of processing efficiency. In addition, the river purification method of the present invention has no effect of reducing the flow cross-sectional area by installing the microbial contact material according to the direction of the water flow, and has a strong adaptability to the outflow of soil due to the increase in flow rate, thereby improving the river purification efficiency.

Claims (2)

A pair of microbial contact material support rods for installing microbial contact materials on both floors of the stream to be constructed, and a pair of bar rods installed between the microbial contact material support rods to bind the microbial contact material, between the horizontal bars. And a microorganism contact member to be installed, a cable tie which binds the microbial contact member to both side bars from the upstream to the downstream in the water flow direction, and a stream purifying apparatus comprising an elastic unit connecting the microbial contact member to the cable tie. . The river cleaning apparatus according to claim 1, wherein the elastic unit includes a hook portion, an elastic portion, and a ring portion.