KR100477484B1 - Environment-friendly river-purifying facility adopting natural filteration system - Google Patents

Abstract

The present invention relates to a purification facility installed in tributaries such as rivers and rivers, and in particular, barrier walls of different heights are formed on the upper side to form a retardation channel and protrude to one side of the lower water barrier beam. A plurality of perforated pipes, a transfer pipe which is branched from the above-mentioned perforated pipes, and a check tube for direct discharge to the lower side of the water retaining beam are formed, respectively, and the non-woven fabric is wrapped on the surface of the perforated pipe. Cover the filter yarns, and form a plurality of protrusions on the rear slope of the water beam, and at the rear end of the water beam to form a flow velocity buffer and a flow buffer stone,

In addition to facilitating the degradation of contaminants by primary purification and inclined barrier walls by filtration sands, they also induce self-determination and contaminant degradation by planted aquatic plants. As a result, environmentally friendly, low-cost, high-efficiency purification efficiency is achieved, while continuous contaminants are decomposed and filtered, while maintenance and management are not necessary at all. It is about river purification facilities.

Description

Environment-friendly river-purifying facility adopting natural filteration system

The present invention relates to a purification facility installed in tributaries such as rivers and rivers, and in particular, eco-friendly to improve water quality and aquatic environment by doubling the self-cleaning capacity while promoting natural purification of river water and lake water through multi-stage filtration and decomposition processes. Natural filtration stream purification facilities.

As civilization develops, various pollutants emitted by humans increase, and the boiling point around rivers and lakes near the city (which can not be identified when pollutant enters) is polluted by pollutants or organic foreign substances, and the turbidity is very high. Of course, the quality of rivers is falling continuously.

While the contaminated river water and lake water flows, the water quality deteriorates rapidly and destroys the aquatic environment.However, the water barrier facilities that support their self-cleaning action are removed by hard development. Midnight ability is falling significantly.

Aquatic plants are the basis of the midnight environment because rivers need water so that aquatic plants can live.

Breaking away from the development policy that irrelevantly flows downstream irresponsibly due to the nearsighted idea of the decay and the indiscriminate development of the deceased; When the purification theory recognizes that the decomposition system is decayed due to the change of the purification system, it will be able to create a river with self-cleaning ability.

Artificial methods to purify organic matters from streams or lakes when they are polluted from outside or require pollution, require a lot of cost, time, and economic aspects. This effect is achieved, and the effect is doubled especially when the ratio of pollutant and purification factor is properly formed.

In general, in the past, in order to secure agricultural water, there were many water barriers in the tributaries such as rivers and rivers, and the above water barriers were mostly made by simply stacking stones.

However, as the above-mentioned water barrier facility has a natural filtering function because turbidity or contaminated water is discharged downstream from the permeable layer of sand, gravel, etc. during the flow of water, it performs a natural filtration function. Upstream of the tributaries with these water barriers were abundant in water resources and a wide variety of fish and aquatic plants, so they had a very good natural purification ability.

On the other hand, in modern rivers without water barriers, where the water flow is simply emphasized, the self-cleaning function is significantly reduced, and even though there is no special pollution source, the turbidity is high and the aquatic environment is destroyed. Since it does not have self-cleaning capacity, when the pollutant in the river flows in, the decomposition and purification period is long, and it can be seen as another form that rapidly flows downstream to increase the pollution of the entire riverbed.

Therefore, in view of the problems described above, as shown in Patent Registration No. 171912, instead of installing two barrier walls spaced in the river to hinder the flow of water, there are a number of perforated pipes at the ends of the barrier wall on the front side. Buried upstream to flow through the porous pipe between the spaced apart barrier walls are discharged over the rear barrier wall,

By forming a gravel layer and a charcoal layer on the upper part of the porous tube, the river water purified by the gravel layer and the charcoal layer is discharged downstream through the porous tube, thereby filtering and decomposing organic matter by the gravel layer and the charcoal layer. A stream purification apparatus has been proposed to double the self-cleaning action to promote water quality and aquatic environment.

However, the above-mentioned river purification apparatus can only expect the filtration action by the gravel layer and the charcoal layer, so that the deterioration of the filtration action due to the accumulation of contaminants, as well as the adsorption power of the charcoal layer by the sediment that does not decompose due to the dissolved oxygen increase function There is a problem that the self-cleaning function is not greatly improved due to problems such as a decrease in the filling efficiency, and the sedimented or accumulated pollutants act to fill the filtration passage of the gravel layer or charcoal layer, and the filtration efficiency gradually decreases. After a certain period of time, the filling passage of the filter passage caused by the foreign matter occurs and the filtration cannot be performed at all.

In particular, when the discharge of rivers increases rapidly during the rainy season or during the agricultural season, the turbidity of the river water becomes very high, which blocks the inlet of the perforated pipe by such turbidity. Since it is impossible to measure the normal or abnormal state of the perforated tube, once installed purifier is almost impossible to maintain and manage. There is a problem.

In particular, if it does not pass through the filtration layer by the porous tube and is simply used as a water barrier facility, the purification function is lost. Rather, it accelerates the discharge rot and the midnight interruption function of the pollutant by the lack of dissolved oxygen due to water confinement. There is a serious problem.

The present invention has been made in order to eliminate the problems described above, the barrier ribs having different heights formed on the upper portion of the water barrier beam to form a retardation channel, and the plurality of porous tubes protruding to one side of the lower water barrier beam. And a check tube for directing discharge from the perforated pipe to the retarded water channel and discharged directly to the lower side of the water beam, and wrapping the nonwoven fabric on the surface of the perforated pipe to filter the filter yarn on the top. Covering, and forming a plurality of protrusions on the rear slope of the water beam, and formed at the rear end of the water beam to form a flow rate buffer and a flow buffer, respectively,

Aquatic plants and filtration are very excellent in their self-cleaning ability because they promote the decomposition of dissolved oxygen-enriched contaminants by primary purification by filter sand and air contact by inclined barrier walls, as well as the self-cleaning and contaminant decomposition by planted aquatic plants. 4) The use of filtration stones makes it possible to see low-cost, high-efficiency purification efficiency in terms of environment-friendliness, while continuous decontamination and filtration of contaminants is performed, but there is no need for maintenance and management. It is an object of the present invention to provide an excellent eco-friendly natural filtration stream purification facility.

Hereinafter, preferred embodiments of the present invention will be described.

1 is a plan view of the river purification facility of the present invention, Figure 2 is a side cross-sectional view of the river purification facility of the present invention, Figure 3 is a pipe plan view of the river purification facility of the present invention, Figure 4 is a view of the river purification facility of the present invention An enlarged perspective view of piping main parts.

The blocking wall 1 of the upper part and the overflow wall 2 of a lower height are formed spaced apart, and the retention channel 3 is formed between the blocking wall 1 and the overflow wall 2, and overflows, On the rear side of the wall 2 is formed an inclined surface 5 formed with a repetitive intersecting projection 4 and 4 ', and at the lower end of the inclined surface 5, a water beam having a buffer beam 6 having an upwardly fused shape ( 10) installed in the river (100),

End portions of the porous pipes 12 and 12 'in which the inflow holes 11 and 11' are continuously formed radially are buried to the lower side of the water beam 10, and branched from the porous pipes 12 and 12 '. Connecting the inspection pipe 14 having the drainage pipe 13 and the opening / closing valve 18 exposed to the ends of the retardation channel 3 and the inclined surface 5, respectively,

The upper part of the porous tube 12, 12 'is formed with a filtration layer 15 by the filtration sand, and on one side of the buffer beam 6 to form a buffer portion 16 by the buffer stone, the river ( By forming a cover layer 102 on the slope 101 of 100 to plant the aquatic plant 103,

The stream and lake water flowing in from the upstream pass through the filtration layer 15 to increase the amount of dissolved oxygen by means of the protruding jaws 4 and 4 'of the diesel inclined surface 5 through the retardation channel 3. ) Is discharged downstream.

At this time, the aquatic plant 103 has its roots spread to the slope 101 and the filtration layer 15 of the river 100 to absorb and decompose various organic matters.

In addition, a filter layer 17 made of a nonwoven fabric is formed on the main surface of the porous tube 12 and 12 'to prevent the inflow holes 11 and 11' from being blocked by foreign matter.

The purification facility may be installed on any one side of the lake, and the lake water purified by the separate circulation pump 20 and the return pipe 21 may be re-introduced into the lake so that the lake water in a clear state is always maintained.

In addition, the upper surface of the blocking wall (1) and the overflow wall (2) is to form a stepping stone (22, 22 ') of a predetermined interval may be used as a stepping bridge that can freely travel to the river thereby.

Referring to the operation of the present invention the river purification facility as described above in more detail as follows.

In accordance with the present invention, the river purification facility doubles the self-cleaning capacity of river water and lake water by using environmentally friendly materials of nature, and simultaneously performs the role of a stepping stone using the purification facility as well as decomposing organic matter by the self-cleaning effect of the purification facility itself. It can be said to be friendly.

In other words, when the present invention purification facility is installed in a tributary such as a river, the water is trapped by the water bar 10, and the river or lake water confined by the water bar 10 is blocked as shown in FIG. Is introduced through a plurality of porous pipes 12, 12 'formed on the lower side of the beam (10).

At this time, the inlet hole (11) (11 ') is formed on the front of the porous tube 12, 12' is a stream or lake water is introduced through the inlet (11) (11 '), such inflow The filtration layer 15 formed on the upper side of the porous tube 12 and 12 ′ before the process is formed by mixing sand or gravel which is common around the river, and serves to filter out various organic foreign substances.

In addition, the river water or the lake water flowing into the porous pipe 12, 12 'does not proceed until the water confinement action by the water block 10 reaches a certain level, but the river water or lake water 10 is When the water level rises to a certain water level, water flows into the porous pipes 12 and 12 'naturally by water pressure, and through the water pipe 13 connected to the porous pipes 12 and 12', the upper retardation channel 3 To be discharged.

At this time, the retardation channel 3 passes through the overflowing wall 2 after passing the overflowing wall 2 after the stream water or the lake water that falls from the end of the flow pipe 13 fills the retardation channel 3. It will flow along.

In addition, since the projecting jaw (4) (4 ') formed by artificial molded or natural stone is formed on the front surface of the inclined surface (5), river water or lake water flowing along the inclined surface is the projecting jaw (4) (4') ) And collides finely, thus maximizing the dissolved oxygen in river water or lake water and maximizing the decomposition of organic matter by dissolved oxygen.

As such, the flow rate of river water or lake water rapidly flowing along the slope 5 is reduced by the buffer beam 6, which is an upward slope formed at the bottom of the slope 5, so that the bottom of the river is blown by river water and lake water having a rapid flow rate. To prevent,

The stream or lake water slowed down by the buffer beam 6 is discharged downstream while being crushed finely into foam by the buffer portion 16 at its end, and the buffer portion 16 is formed of larger gravel or stone. What is necessary is just to laminate | stack and form in fixed width.

In addition, as described above, when various organic substances are filtered by the filtration layer 15, the organic substances are deposited on the filtration layer 15, thereby lowering the filtration efficiency. Such organic substances are smoothly decomposed by rich dissolved oxygen in the river water. The roots of the aquatic plant 103 planted in the cover layer 102 of the river 100, the surface of the river 100, thrives and extends to the filtration layer 15, and various residuals are maintained by the roots of the aquatic plant 103 described above. Since the organic substance is finally absorbed and decomposed, the filtration layer 15 is always able to circulate and maintain an explosive state of the organic matter.

The inspection pipe 14 connected to the discharge side of the porous pipes 12 and 12 'is connected in series with the porous pipes 12 and 12'. (12) (12 ') It is also possible to check whether there is an abnormality of the inlet (11) (11') of the inlet hole, if the river water or lake water is not discharged smoothly when the opening valve 18 is opened, the porous pipe (12) If accumulated soil is accumulated within (12 '), it can be repaired or cleaned. It is possible to maintain and repair the purification facilities, so that it has a continuous and stable purification ability.

In particular, in order to prevent the porous tubes 12 and 12 'from being clogged as described above and the purification thereof is lowered, the filter layer 17 made of a nonwoven fabric is formed on the outer circumferential surface of the porous tubes 12 and 12'. By forming, it is possible to prevent the gravel or sand generated from the filtration layer 15 to block the inflow holes (11) (11 ') while allowing the inflow of river water or lake water, thereby improving the filtration efficiency and at the same time the porous tube 12 By blocking the 12 ', the river water or the lake water is not purified and can be prevented from overflowing the upper portion of the blocking wall 1 to be discharged downstream.

Therefore, as shown in FIG. 6, in the case of the state stream composition of the stream adjacent to the city, or in the case of the purification of the polluted river, the present invention purification facility is installed every certain section to improve the water quality of the river and to create aquatic environment pleasantly by doubling the midnight capacity. As well as the formation of a plurality of stepping stones (22, 22 ') continuous in the upper surface of the blocking wall (1) and the overflow wall (2) of the water barrier beam (10) and thereby can cross the river It can also act as a bridge at the same time.

In addition, in the case of rivers adjacent to rural areas, if the present invention purification facilities are installed at certain intervals, it is possible to easily use agricultural water and livestock water due to the water blocking effect while improving the water quality and aquatic environment of the river.

In particular, when the present invention purification facility is installed on any one side of the lake as shown in Figs. 7 to 8, there is an effect of improving the water quality and aquatic environment of the lake water, and the downstream side of the drainage as shown in Fig. 8. By forming a separate circulation pump 20 in the re-introduced stream water or lake water to the upstream side by the return pipe 21 to maintain the lake water is always purified in a clear state.

As described above, the eco-friendly natural filtration stream purification facility of the present invention promotes the decomposition of pollutants by primary purification and sloped barrier walls by filter sand as well as induces the midnight and pollutant degradation by planted aquatic plants. It is very capable and uses aquatic plants, filtration sands, and filtration stones, so you can see low-cost, high-efficiency purification efficiency in an environmentally friendly way, while continuous decomposition and filtration of contaminants are carried out, but there is no need for maintenance and management. The efficiency is very good, but the midnight function is excellent.

1 is a plan view of the present invention the river purification facility

Figure 2 is a side cross-sectional view of the river purification facility of the present invention

3 is a plan view of the piping of the present invention river purification facility

Figure 4 is an enlarged perspective view of the piping main part of the present invention river purification facility

Figure 5 is a detailed view showing the water flow of the present invention river purification facility

6 is an embodiment of the present invention the river purification facility

7 is another embodiment of the present invention the river purification facility

8 is a side cross-sectional view of the river purification facility of FIG.

Explanation of symbols on the main parts of the drawings

1: blocking wall 2: overflow wall

3: 4,4 'delayed jaw

5: inclined surface 6: buffer beam

10: water barrier 11,11 ': inlet hole

12,12 ': Perforated tube 13: Flowing pipe

14 inspector 15 filter layer

16 buffer part 17 filter layer

18: on-off valve

20: circulation pump 21: return pipe

22,22 ': stepping stones

Claims (4)

The blocking wall 1 of the upper part and the overflow wall 2 of a lower height are formed spaced apart, and the retention channel 3 is formed between the blocking wall 1 and the overflow wall 2, and overflows, On the rear side of the wall 2 is formed an inclined surface 5 formed with a repetitive intersecting projection 4 and 4 ', and at the lower end of the inclined surface 5, a water beam having a buffer beam 6 having an upwardly fused shape ( 10) installed in the river (100), End portions of the porous pipes 12 and 12 'in which the inflow holes 11 and 11' are continuously formed radially are buried to the lower side of the water beam 10, and branched from the porous pipes 12 and 12 '. Connecting the inspection pipe 14 having the drainage pipe 13 and the opening / closing valve 18 exposed to the ends of the retardation channel 3 and the inclined surface 5, respectively, The upper part of the porous tube 12, 12 'is formed with a filtration layer 15 by the filtration sand, and on one side of the buffer beam 6 to form a buffer portion 16 by the buffer stone, the river ( Eco-friendly natural filtration stream purification facility characterized in that to form a cover layer 102 on the slope 101 of 101 to plant the aquatic plants 103. The method of claim 1, Eco-friendly natural filtration type river purification facility, characterized in that the filter layer (17) formed by the nonwoven fabric on the main surface of the porous tube (12) (12 '). The method of claim 1, An eco-friendly natural filtration type river purification facility, characterized in that the downstream of the water basin (10) by installing a circulation pump (20) having a return pipe (21) so that the purified water flows back upstream. The method of claim 1, Eco-friendly, characterized in that the upper surface of the blocking wall (1) and the overflow wall (2) to form a stepping stone (22, 22 ') of a certain interval to thereby be used as a stepping stone to freely travel the river Natural Filtration River Purification Facility.