KR200310485Y1 - Levee having ability for sanitation - Google Patents

Abstract

The present invention relates to a blowhole installed for the purpose of introducing rural water required in a river into a waterway, and more particularly, to a stream blower having a natural purification function, and an upper structure that blocks and stores upstream river water. In the sub-structure reinforcement on the downstream one side of the upper structure to support the load of the river water with the upper structure to form a stepped structure in the river inlet of the concrete material is installed in the transverse direction of the stream, the upper surface of the lower structure An inlet cut into a predetermined size is formed so that the river water flowing down from the structure is introduced, and an outlet port communicating with the inlet port is formed on one surface of the downstream side of the lower structure so that the stream water flowing into the inlet port is discharged. The planting department in which aquatic plants with functions are planted And doedoe seated; The planting portion is provided with a support net having a rim for shape maintenance at the periphery, a culture plate which is fitted to the support net and aquatic plants are planted, and a rim for shape maintenance with the periphery at the periphery and is supported on the culture plate. It is made of a cover net that is firmly fixed to it.

Description

Levee having ability for sanitation}

The present invention relates to a blown beam installed for the purpose of introducing the rural water required in the river to the waterway, and more particularly, to a stream blown with a natural purification function.

In general, rivers with farmland are provided with blowholes to store a certain amount of river water, from which the required agricultural water is supplied. However, the blow above had a simple function such as a means of crossing a river by wild animals including human beings in addition to the dam function for the reservoir.

Meanwhile, due to industrial development and population growth, pollutants such as wastewater or domestic sewage, which pollute the rivers, are released without any filtration, thereby polluting the water quality. In addition, by using this as agricultural water, various plants grown for human food are also heavily polluted, causing a huge disaster for humans. In addition, the damage of the natural ecosystem makes the natural purification of the water itself impossible, so that the polluted river is continuously deteriorating, and the problem becomes more serious.

Therefore, the wastewater is sufficiently purified through a separate sewage treatment facility prior to discharge of the wastewater into the river. However, this process is mainly focused on the removal of suspended solids and organic matters, and is somewhat insufficient in the management and removal of nutrients such as nitrogen or phosphorus, which are the decisive factors of eutrophication. On the other hand, the increase in concentration due to the continuous discharge of nutrients deepens the eutrophication of public waters such as rivers, causing secondary pollution such as green algae.

However, the removal of the nutrients required a physicochemical advanced treatment facility, and a huge financial burden was required to install and maintain it.

Recently, natural purification treatment techniques using aquatic plants have been tried to compensate for these problems, and the effects have been proved through various experiments and observations (see Korean Journal of Urban Environment Vol. 1, No. 1).

In general, freshwater aquatic plants not only grow naturally in water bodies contaminated with nutrients (nitrogen, phosphorus) loaded from urban and agricultural activities, but also consume the nutrients as growth sources. The cost is very low compared to the treatment, but it is more visible than the microbial treatment, and it has the advantage of effectively preventing eutrophication of the water without the problem of bulking.

Aquatic plants with the above purification functions include live phlegm for nitrogen and phosphorus removal, nutrients and buttercups for heavy metals such as cadmium and lead, squirts for livestock wastewater treatment, strings, buds, irises, taro and , Babies, irises and buttercups for sewage treatment have been tested and conducted and are still being studied using various species. However, the above-mentioned aquatic plants utilized in the natural purification process have advantages and disadvantages according to the absorption / removal function of pollutants, convenience of cultivation, collection and transportation, and reusability according to the life type. For example, purified plants such as buttercups have roots and stems. The high development and density of the organic matter by the adherent microorganisms are large, but the content of nitrogen and phosphorus in the body is low and the growth rate is slow, so the absorption function of nutrients is weak and difficult to collect, but it is largely used as feed or fertilizer. On the other hand, water hyacinths of ancillary plants have excellent treatment functions, and when they grow too much, they block oxygen flow with air at the surface of the water and lack dissolved oxygen. It is not easy to carry because it is high. In addition, the Frogweed rice has no problems with purified water and ancillary plants, but its biomass is small and the root and stem are less developed.

However, in order to obtain a more efficient water purification effect from the above-mentioned aquatic plants, the aquatic plants should be appropriately arranged in a wide range including the middle of the stream rather than concentrated on the edge of the stream. The body had to be planted and supported by the support of. Therefore, most of the techniques for purifying water using aquatic plants, including ancillary plants, have been used only in places where there is little water flow, such as lakes or reservoirs, to prevent the loss of aquatic plants floating on the surface of the water.

In addition, there was a problem that the manufacturing and installation cost of the water purification apparatus caused by the need to install a new facility that does not exist as a burden.

Therefore, the present invention was devised to solve the above problems, and the water purification function was able to effectively cleanse the river water while being firmly fixed so that aquatic plants having a water purification function are disposed in a river having a potent force. Its purpose is to provide a stream report.

1 is a partial perspective view showing a connection state between the components constituting the blown beam according to the present invention,

2 is a cross-sectional view showing a blown beam according to the present invention.

-Explanation of terms for main parts of attached drawings-

100; Planting part 110; Cover

111; Border 120; Culture plate

130; Support network 131; Fixing protrusion

131a; Fastening hole 132; edge

200; Blown beam 210; Superstructure

220; Substructure 230; Entrance

231; Fastening member 240; Outlet

The present invention for achieving the above object,

An upper structure that prevents and stores upstream river water, and a substructure that is reinforced on one side of the downstream structure of the upper structure to support the load of the stored river water together with the upper structure, forms a stepped structure and is installed in the transverse direction of the river. In river coverage,

On the upper surface of the substructure is formed an inlet cut into a predetermined size so that the river water flowing from the upper structure flows, and the outlet port communicating with the inlet so that the river water flowing into the inlet is discharged on one side of the lower structure Is formed, the inlet is fixed and seated planting material planted aquatic plants having a water purification function; The planting portion is provided with a support net having a rim for shape maintenance at the periphery, a culture plate which is fitted to the support net and aquatic plants are planted, and a rim for shape maintenance with the periphery at the periphery and is supported on the culture plate. It is made of a cover net that is firmly fixed to it.

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

1 is a perspective view showing a main portion of the connection between the components forming the blow beam according to the present invention, Figure 2 is a cross-sectional view showing a blow beam according to the present invention, referring to the upper structure 210 and the lower structure ( In the stream blower made of concrete material which is formed in the cross direction of the river 220 is formed in a stepped structure, the upper structure 210, which is formed relatively high, stores it while partially preventing the progress of the river water, and is formed relatively low. The substructure 220 is reinforced on one surface downstream of the superstructure 210 so as to share support for the load of the stored river water.

At this time, the upper structure 210 does not have enough height and bearing capacity to accommodate all of the flow rate of the river, so that when the full water flows downstream through the lower structure 220 little by little, according to the present invention Blowing bore is the upper surface of the lower structure 220 is cut to a predetermined size to form the inlet 230, the downstream side of the lower structure 220 is also cut to a predetermined size, the outlet port 240 is in communication with the inlet 230 ). Therefore, the river water flowing from the upper structure 210 is introduced into the inlet 230 to be discharged to the outlet 240.

On the other hand, the planting portion 100 on which the aquatic plant having the water purification function is planted is seated and fixed on the inner upper end of the water inlet 230, and the planting portion 100 has a circumferential portion finished with the edge 132 to have a constant shape. The support net 130 is maintained, the culture plate 120 is assembled to the upper surface of the support net 130, the aquatic plants are planted, and the circumference is finished with a border 111 is maintained a constant shape and culture plate 120 Consists of the cover net 110 is firmly fixed to the support net 130 while being assembled to the upper surface of the. The support net 130 and the cover net 110 has a function of intermittently preventing the culture plate 120 located therebetween from being damaged by the force of the river water or from being easily separated from the aquatic plants planted therein. .

Subsequently, the planting part 100 having the structure is firmly fixed to the inner upper end of the inlet port 230 through a separate fixing member. For this purpose, the fastening member 231 is provided at the inner upper end of the inlet port 230. Each of the corners of the support net 130 is provided with a fixing protrusion 131 having a fastening hole corresponding to the fastening member 231 to be fitted to the fastening member 231, thereby providing the planting part 100. ) Is disposed and fixed to the inner upper end of the water inlet 230. At this time, the planting part 100 is preferably to cover the entire inlet 230, which is to increase the planting space of aquatic plants as possible to increase the purification effect. In addition, it is of course not limited to the fastening method of the above-mentioned planting part 100 can be modified in various ways within the scope of the following claims.

On the other hand, by injecting gravel and sand on the bottom surface of the section in which the inlet port 230 and the outlet port 240 communicate with each other, the roots of the aquatic plants planted in the planting part 100 are introduced to allow lush breeding. It is good.

Due to this, the river water flowing down from the upper structure 210 is introduced into the inlet 230 is purified by the aquatic plants planted in the planting unit 100, and then flows out downstream through the outlet 240.

According to the present invention as described above, because the aquatic plants having a water purification function is planted in the existing river blown can be efficiently natural purification of the river in a wide range, planting aquatic plants by processing a part of the blowed water The installation cost can also be relatively reduced because only the parts need to be seated and fixed.

Claims (1)

An upper structure that prevents and stores upstream river water, and a substructure that is reinforced on one side of the downstream structure of the upper structure to support the load of the stored river water together with the upper structure, forms a stepped structure and is installed in the transverse direction of the river. In river coverage, On the upper surface of the substructure is formed an inlet cut into a predetermined size so that the river water flowing from the upper structure flows, and the outlet port communicating with the inlet so that the river water flowing into the inlet is discharged on one side of the lower structure Is formed, the inlet is fixed and seated planting material planted aquatic plants having a water purification function; The planting portion is provided with a support net having a rim for shape maintenance at the periphery, a culture plate which is fitted to the support net and aquatic plants are planted, and a rim for shape maintenance with the periphery at the periphery and is supported on the culture plate. A stream blower with a water purification function, characterized in that consisting of a cover net that is firmly fixed to.