KR20220147868A - System for purifying lake - Google Patents

Abstract

The present invention relates to a lake purification system. The lake purification system includes: a polluted water filtration unit collecting and purifying polluted water in a lake; a purified water fall unit supplying oxygen to the purified water to increase dissolved oxygen in the purified water, and then, supply the purified water to the lake through the lakeside; and a lakeside dividing unit dividing a polluted water area beside the lake and a purified water area beside the lakeside through a polluted water blocking film, wherein the lakeside dividing unit includes a flow path formation film extended the edge of the lake to the polluted water blocking film in a state in which a position for supplying the purified water to the lake is located on the inside, having a film shape extended from the surface of the lake to the bed of the lake by a predetermined length, and having at least one purified water spillage hole formed on at least one height position of the film such that the purified water can be spilled. Therefore, the present invention is capable of rapidly improving the quality of water in the lake.

Description

SYSTEM FOR PURIFYING LAKE

The present invention relates to a lake purification system, and more particularly, by taking polluted water in the lake and purifying it, supplying oxygen to the purified water in a natural way to increase the amount of dissolved oxygen and re-supplying the purified water to the lakeside, By separating the lakeside area where purified water is supplied from and the lakeside area with polluted water using It relates to a lake purification system that can improve water quality.

A lake has a long residence time due to the morphological characteristics of a closed water body, and since pollutants are easy to accumulate, external loads flowing from the watershed, internal loads by living things in lakes and swamps, or direct loads from rainfall are introduced If the water circulation is not done, pollutants stagnate in the lake, causing eutrophication, and there is a problem that the water quality of the whole lake is rapidly polluted.

The eutrophication is a state in which nutrient salts such as nitrogen and phosphorus are accumulated more than necessary and the concentration is increased. Phytoplankton, which occurs in large quantities in a lake, etc., causes the surface to turn green) and causes a mass death of fish and shellfish, and there is a concern that it will have a great impact from the viewpoint of water resources such as waterworks and agricultural and industrial water. .

In addition, if the water pollution of the lake proceeds as described above, there was a problem that it could not even play a role as a leisure activity resource in the local community.

On the other hand, as a method of improving the water quality of lakes currently generally used, there are a method of removing the contaminated sediment layer in the lake and a method of reducing the pollution load of the river flowing into the lake. Various water purification devices and purification methods have already been developed. Its functionality has been verified.

However, there is a limit to improving the water quality of the lake in a short time with the current lake purification system, and the water in the lake could not be used as water resources such as tap water and agricultural and industrial water until the water quality of the entire lake was improved to some extent. There were also restrictions on leisure activities at the lakeside.

According to the above circumstances, the present invention provides water resources by rapidly purifying the water quality of the lakeside in the short term when the water flowing in from the outside of the lake is stagnant for a long time or the lake loses its self-cleaning ability due to no circulation after the inflow of contaminated water. It is intended to present a new lake purification system that can be used and leisurely, and can improve the overall water quality of the lake in the mid- to long-term.

Next, as prior art existing in the field to which the technology of the present invention belongs, first, Japanese Patent Application Laid-Open No. 1997-215990 A (published on August 19, 1997) relates to a device for purifying lakes and swamps, and more specifically, A treatment water body provided in the estuary basin of a river flowing into a swamp, a partition means for forming the treatment water area, and water in the treated water area is taken in to separate and remove contaminants present in the water, and the contaminants are separated and removed a purification means for supplying treated water outside the treated water area, wherein the partition means includes a plurality of partition members each having a weight at the bottom of each member, and a member connecting these partition members to a bamboo ball in the depth direction of lakes and swamps. and a device for purifying lakes and swamps comprising a float member that supports the bamboo foot-type partition object in water.

In addition, Japanese Patent Application Laid-Open No. 2004-082015 A (published on March 18, 2004) relates to a water purification system, and more specifically, partially divides a closed water area with a partition, and rather than the algae layer formed on the water surface in the partition. A suction device installed to suck water of a low appropriate depth, a water flow device installed at an enemy location by floating on the water surface to generate a water flow in the direction of the suction device on the surface layer of the closed water body, and the discharge water of the suction device is introduced There is described a technology related to a water purification system having a biological treatment device installed to remove the algae and return the treated water to the closed water body.

In addition, Korean Patent Application Laid-Open No. 10-2003-0040878 A (published on May 23, 2003) discloses a method for treating pollutants contained in water by spraying pressurized water containing a coagulant and air at high pressure into the water body to be treated. It relates to an on-site water purification method using the on-site pressurized flotation method, and more specifically, a technique for dividing the water area to be treated to the bottom by only a certain area to form a working water system in which treated water and untreated water are separated. have.

The prior art documents relate to systems or methods for purifying or improving water quality such as lakes, and include technical contents for purifying or improving water quality by dividing a purification zone and a polluted zone in a water system such as a lake, There was a limit to rapidly improving the water quality of the lakeside.

Japanese Patent Application Laid-Open No. 1997-215990 A (published on August 19, 1997) Japanese Patent Laid-Open Publication No. 2004-082015 A (published on March 18, 2004) Korean Patent Publication No. 10-2003-0040878 A (published on May 23, 2003)

The present invention was created to solve the above problems, and forms a purified water zone along the lakeside using a barrier film, collects and purifies contaminated water in the lake outside the purified water zone, and supplies oxygen to the purified water in a natural way After increasing the amount of dissolved oxygen, it is re-supplied to the purified water area, while generating purified water flows in various depth layers in the purified water area, thereby rapidly improving the water quality of the lakeside in the short term, and improving the quality of the lakeside in the short term The purpose is to provide a lake purification system that can improve the overall water quality of the lake in the medium to long term through the formation of an internal flow path.

A lake purification system according to an embodiment of the present invention includes: a polluted water filtration unit that takes in polluted water in the lake and purifies the polluted water by removing organic and/or inorganic pollutants in the collected polluted water; a purified water dripping unit receiving purified water from the polluted water filtering unit, supplying oxygen to the purified water by using the dripping effect to increase the amount of dissolved oxygen in the purified water, and then supplying purified water to the lake through an edge of the lake; and a predetermined length along the edge of the lake in a form that starts at a predetermined position among the edges of the lake and is spaced apart from the edge of the lake by a predetermined distance with a position inside which purified water is supplied from the purified water dripping part to the lake. The polluted water blocking membrane that separates the purified water zone and the polluted water zone including the location where purified water is supplied to the lake by having a membrane shape extending from the surface of the lake to the bottom of the lake in the height direction. A lakeside partition including It is characterized in that it includes a flow path forming membrane having a membrane shape extending to a predetermined length and having at least one purified water outlet hole through which purified water can flow out at at least one or more height positions of the membrane.

In addition, as an embodiment of the present invention, the flow path forming membrane includes a purified water outlet hole through which purified water can flow out at at least two or more height positions of the membrane, and the purified water outlet hole according to the height position at which the purified water outlet hole is formed. It is characterized in that at least one or more of the shapes and sizes are formed the same or different.

In addition, as an embodiment of the present invention, the lakeside partition portion includes at least two of the flow path forming layers, and the flow path forming layers are formed to be spaced apart from each other by a predetermined distance.

In addition, as an embodiment of the present invention, the lakeside partition unit is characterized in that at least one of the height, size, and shape of the purified water outlet hole is formed to be the same or different for each of the flow path forming membranes.

In addition, as an embodiment of the present invention, in the polluted water blocking membrane, the purified water supplied to the lake flows along the polluted water blocking membrane in the purified water zone, and the flow of the purified water is generated in an upward, downward, or a combination thereof. It is characterized in that; is formed;

In addition, as an embodiment of the present invention, the purified water flow guide unit is provided in a form in which a protruding or recessed line is formed on the surface of the contaminated water blocking film toward the purified water zone to guide the flow of the purified water. characterized in that

In addition, as an embodiment of the present invention, the lakeside partition unit includes at least one buoy (A) provided on the top of the polluted water blocking membrane so that the top of the polluted water blocking membrane is located on the water surface. .

In addition, as an embodiment of the present invention, the lakeside partition part includes a fixed weight (A) provided under the polluted water blocking membrane in order to maintain the shape in which the polluted water blocking membrane is spread from the surface of the lake toward the bottom of the lake. It is characterized in that it contains at least one or more;

In addition, as an embodiment of the present invention, the lakeside partition unit includes at least one buoy (B) provided on the channel forming film so that the upper portion of the channel forming film is located on the water surface.

In addition, as an embodiment of the present invention, the lakeside partition unit, in order to maintain the shape in which the flow path forming membrane is spread from the surface of the lake toward the bottom of the lake, a fixing weight (B) provided under the flow path forming membrane; It is characterized in that it includes at least one or more.

In the present invention, one end is connected to the lakeside, the other end is away from the lakeside, and the contaminated water zone on the lake side and the lakeside side through a polluted water blocking membrane formed along the lakeside in a form that starts from one end and is spaced apart from the lakeside by a predetermined distance By dividing the purified water zone of By artificially forming and circulating the inner flow path, it has the effect of improving the overall water quality of the lake at low cost and remarkably.

In addition, in the present invention, in supplying the purified water to the purified water area by the lakeside after taking the polluted water from the lake and purifying it as described above, at least one purified water outlet hole is formed so that the purified water can flow out at at least one height position. By allowing purified water to flow into at least one of the upper, middle, and lower layers of the water depth in the purified water zone through a flow path forming film having a has the effect of rapidly improving

In addition, in the present invention, the purified water flow is generated in an upward, downward, or a combination thereof while the purified water flows along the polluted water blocking film in the purified water zone by a purified water flow guide unit formed in the polluted water blocking film. Water is circulated throughout the depth of the lake, preventing stagnant water and organic/inorganic substances from stagnation at the bottom of the lake, thereby continuously improving the water quality in the lake.

1 is a schematic diagram of a lake purification system according to an embodiment of the present invention;
2 is an exemplary view for explaining a flow path forming film according to an embodiment of the present invention.
3 is an exemplary view for explaining the lakeside partition according to an embodiment of the present invention.
4 is an exemplary view for explaining the purified water flow inducing unit of the polluted water blocking membrane according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the lake purification system according to the present invention will be described in detail so that those skilled in the art to which the present invention pertains can easily practice the present invention.

In each drawing of the present invention, the size or dimension of the structures is enlarged or reduced than the actual size for clarity of the present invention, and the known components are omitted to reveal the characteristic configuration, so it is not limited to the drawings. .

In describing in detail the principle of the preferred embodiment of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, since the configuration shown in the embodiments and drawings described in this specification is only the most preferred embodiment of the present invention and does not represent all the technical spirit of the present invention, various It should be understood that there may be equivalents and variations.

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

1 is a schematic diagram of a lake purification system according to an embodiment of the present invention;

As shown in FIG. 1, the lake purification system according to the present invention forms a purified water zone at the edge of the lake, takes the polluted water from the lake, purifies it, and supplies it back to the purified water zone to provide a purified water zone formed at the edge of the lake. By rapidly improving the water quality of the lake and allowing purified water to flow continuously from the purified water area to the contaminated water area of the lake, a flow path can be formed throughout the lake to improve the water quality of the entire lake at a low cost in the mid- to long-term.

To this end, the lake purification system according to the present invention largely includes a polluted water filtration unit, a purified water dripping unit, and a lakeside partition unit.

The contaminated water filtering unit includes a contaminated water intake device, a contaminated water filtering device, and a purified water drainage device.

The contaminated water intake device intakes contaminated water from the contaminated water section of the lake to the contaminated water filtering device, and at least one contaminated water intake extending from a predetermined position in the contaminated water section in the lake to the private water contaminated water filtering device and at least one contaminated water intake pump for moving the contaminated water from the contaminated water area in the lake to the contaminated water filtering device through the pipe and the contaminated water intake pipe.

As described above, the contaminated water intake device may take in the contaminated water at at least one location in the lake through at least one or more contaminated water intake pipes, thereby preventing the occurrence of a purification blind spot in the lake.

For reference, it is preferable that the suction port for sucking the contaminated water from the contaminated water intake pipe is located as far away from the purified water area as possible in order to improve the water quality of the lake.

The purified water drainage device discharges the purified water filtered by the contaminated water filtering device to the purified water dripping part, and includes at least one purified water drain pipe extending from the purified water filtering device to the purified water dripping part, and, if necessary, the purified water drain pipe It may include at least one purified water drainage pump for moving purified water from the purified water filtering device to the purified water dripping part through the .

The polluted water purification device purifies the polluted water taken from the polluted water area in the lake through the polluted water intake device, and purifies the polluted water by removing organic and/or inorganic pollutants in the polluted water.

To this end, the contaminated water purification apparatus is a sewage treatment facility of a sequential batch reactor (SBR) structure using microorganisms to purify and purify contaminated water including organic matter, or a contaminated water treatment facility for purifying contaminated water containing low concentration or inorganic substances. Two facilities can be installed together or only one of each can be installed independently depending on the situation.

The purified water dripping unit receives purified water from the polluted water filtering unit, supplies oxygen to the purified water using the dripping effect to increase the dissolved oxygen amount in the purified water, and then supplies purified water to the purified water area in the lake through the edge of the lake. As such, it is provided at the edge of the lake in the purified water area, and includes a device and a structure that allows oxygen to be supplied into the purified water while the purified water is falling, such as a waterfall, a calculation-type falling water device, and the like.

The lakeside division part divides the purified water zone by the lakeside and the contaminated water zone of the existing lake, and the purified water with an increased dissolved oxygen amount while falling from the purified water dripping part is supplied to the lake through the edge of the lake, at this time being newly supplied to the lake. In order to prevent the purified water from mixing with the polluted water of the existing lake, a polluted water blocking film is provided with a predetermined length along the edge of the lake with the position where the purified water is supplied inside.

The polluted water blocking film starts at a predetermined position among the edges of the lake in the longitudinal direction and has a position inside which purified water is supplied from the purified water dripping part to the lake, and the edge of the lake is spaced apart from the edge of the lake by a predetermined distance. The purified water area including the location where the purified water is supplied to the lake and the pollution of the existing lake by having a membrane shape extending from the water surface of the lake to the bottom of the lake by a predetermined length in the height direction separate the number zones.

In addition, the lakeside partition unit includes a flow path forming membrane so that the purified water supplied to the purified water zone generates purified water flows in various depth layers in the purified water zone, and at the same time, to further prevent mixing of the polluted water and purified water in the lake.

2 is an exemplary view for explaining a flow path forming film according to an embodiment of the present invention.

As shown in FIG. 2, the flow path forming membrane extends from the edge of the lake to the polluted water blocking membrane with the position where the purified water is supplied to the lake inside, and extends from the surface of the lake to the bottom of the lake by a predetermined length. It has a membrane shape, and at least one purified water outlet hole for allowing purified water to flow out is formed at at least one or more height positions of the membrane.

That is, the depth at which the flow of purified water is generated is determined according to the position of the purified water outlet hole formed in the flow path forming film.

For example, when the purified water outlet hole is formed on the upper portion of the flow path forming film adjacent to the surface of the lake, the purified water flow is formed on the lake surface, and the purified water outlet hole is formed below the channel forming film adjacent to the bottom of the lake When available, a stream of purified water is formed adjacent to the lake bottom.

In addition, the flow path forming layer may include a purified water outlet hole through which purified water can flow out at at least two or more height positions of the membrane. That is, by forming a plurality of purified water outlet holes at various height positions, a flow of purified water may be generated in a plurality of water depth layers.

In addition, when a plurality of purified water outlet holes are formed at various height positions as described above, at least one of the shapes and sizes of the purified water outlet holes may be the same or different depending on the height position at which the purified water outlet holes are formed.

Through this, the lake purification system according to the present invention can induce the flow of purified water to be the same or different for each depth while generating the flow of purified water in various depth layers according to the environment of the lake.

In addition, the lake purification system according to the present invention may include at least two or more in a form in which each flow path forming film is spaced apart by a predetermined distance.

For example, when three flow path forming layers are provided, purified water supplied to the purified water region may first pass through the first flow path forming layer, then pass through the second flow path forming layer, and then pass through the third flow path forming layer. will be.

In addition, the lake purification system according to the present invention is provided with a flow path forming membrane in multiple stages as described above, and at least one of the height, size, and shape of the purified water outlet hole is formed in each of the flow path forming layers to be the same or different, thereby forming a flow path. For each section divided by the membrane, a flow pattern including the depth and flow rate of the purified water flow can be independently formed.

As described above, the lake purification system according to the present invention divides the purified water zone in multiple stages with a plurality of flow path forming membranes and forms a different flow pattern of purified water for each zone, thereby generating a section in which water is stagnant throughout the purified water zone. It is possible to prevent this from happening and to form a complicated flow path, thereby maximizing the speed and effect of water quality improvement in the purified water area.

On the other hand, it is preferable that the polluted water blocking film and the channel forming film are made of a polyester material having no corrosion and high tensile strength, and designed to have a structure that does not cause any problems in the growth of aquatic plants such as fish.

In addition, a rod-shaped support (support rod) is provided at the lower ends of the polluted water blocking film and the flow path forming membrane, and the length of the polluted water blocking membrane and the flow path forming membrane can be adjusted by rolling up and lowering the rod.

Hereinafter, in the lake purification system according to the present invention, a detailed configuration of the lakeside partition unit will be described.

3 is an exemplary view for explaining the lakeside partition according to an embodiment of the present invention.

As shown in FIG. 3, in the lake purification apparatus according to the present invention, the lakeside partition unit includes a buoy ( A) and a buoy (B) provided on the channel forming film so that the upper portion of the channel forming film is located on the water surface.

At least one buoy is provided at predetermined intervals along the longitudinal direction of the membrane at the upper ends of the polluted water blocking membrane and the flow path forming membrane, and serves to float the upper ends of the polluted water blocking membrane and the flow path forming membrane on the surface of the lake.

The buoy is preferably made of a plastic material and made in a color that is easily visible to the eye. In addition, a solar lamp may be provided in consideration of safety when moving a ship at night.

In addition, the lakeside partition unit, in order to maintain the form in which the polluted water blocking membrane is spread from the surface of the lake toward the bottom of the lake, the fixed weight (A) provided under the polluted water blocking membrane and the flow path forming membrane are installed on the surface of the lake. In order to maintain the shape that is stretched toward the bottom of the lake, it includes a fixed weight (B) provided under the flow path forming film.

The fixed weight may be provided as an anchor type anchor, or the fixed weight may have a structure in which the fixed weight is fixed to the bottom of the lake surface and the wire is connected to the fixed weight and the polluted water blocking film or flow path forming film.

In addition, the buoy may have a structure capable of fixing the positions of the polluted water blocking film and the flow path forming film and firmly fixing it with a lower fixing weight and a wire so that the flow is not severe in currents and waves.

Meanwhile, in the lake purification system according to the present invention, in addition to the flow guide part, a purified water flow guide part is provided on the polluted water blocking film to form various flows of purified water in the purified water area.

4 is an exemplary view for explaining the purified water flow inducing unit of the polluted water blocking membrane according to an embodiment of the present invention.

As shown in FIG. 4 , the purified water flow guide unit is provided in such a way that a protruding or recessed line is formed on the surface of the contaminated water blocking film toward the purified water area to guide the flow of the purified water.

Accordingly, the purified water supplied to the purified water zone flows along the polluted water blocking film and flows in various directions such as rising, falling, vertical, and horizontal by the purified water flow inducing part formed in the polluted water blocking film. .

For example, if the shape of the purified water flow guide part has a structure in which a diagonal line extends to the lower end of the contaminated water barrier and then diagonally extends to the upper end of the contaminated water barrier, the purified water descends to the bottom of the lake. By repeating the rising flow again, it is possible to continuously circulate the water at the top of the lake and the water at the bottom of the lake.

As described above, the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are merely exemplary, and various modifications and equivalent other embodiments are possible by those skilled in the art. will understand that Therefore, the technical protection scope of the present invention should be defined by the following claims.

100: polluted water filtering unit
200: purified water dripping part
300: lakeside division
310: polluted water barrier
311 : Buoy (A)
312: support bar
313: fixed weight (A)
314: purified water flow guide unit
320: flow path forming film
321: Buoy (B)
323: fixed weight (B)
322: support bar
324: purified water outflow hole

Claims (10)

a polluted water filtration unit that takes in the polluted water in the lake and purifies the polluted water by removing organic and/or inorganic pollutants in the collected polluted water;
a purified water dripping unit receiving purified water from the polluted water filtering unit, supplying oxygen to the purified water by using the dripping effect to increase the amount of dissolved oxygen in the purified water, and then supplying purified water to the lake through an edge of the lake; and
In the longitudinal direction, it starts at a predetermined position among the edges of the lake and is spaced apart from the edge of the lake by a predetermined distance with the position where purified water is supplied from the purified water dripping part to the inside of the lake by a predetermined length along the edge of the lake. The polluted water blocking membrane that separates the purified water zone and the polluted water zone including a location where purified water is supplied to the lake by having a membrane shape extending from the surface of the lake to the bottom of the lake in the height direction Including; lakeside compartment comprising;
The lakeside division,
It extends from the edge of the lake to the polluted water blocking membrane with the position where the purified water is supplied to the lake inside, and has a membrane shape extending from the water surface of the lake to the bottom of the lake for a predetermined length, at least one or more heights of the membrane The lake purification system, characterized in that it comprises a flow path forming film having a shape in which at least one purified water outlet hole for allowing purified water to flow out is formed at a location.
According to claim 1,
The flow path forming film,
and a purified water outlet hole through which purified water can flow out at at least two or more height positions of the membrane, wherein at least one of the shape and size of the purified water outlet hole is the same or different depending on the height position at which the purified water outlet hole is formed Characterized by a lake purification system.
According to claim 1,
The lakeside division,
At least two of the flow path forming layers are included, wherein the flow path forming layers are formed to be spaced apart from each other by a predetermined distance.
4. The method of claim 3,
The lakeside division,
The lake purification system, characterized in that at least one of the height, size, and shape of the purified water outlet hole is formed to be the same or different for each of the flow path forming membranes.
4. The method of claim 3,
The polluted water barrier,
The purified water flow inducing part for guiding the flow of purified water supplied to the lake to flow along the polluted water blocking film in the purified water zone, upward, downward, or a combination thereof; purification system.
6. The method of claim 5,
The purified water flow guide unit,
The lake purification system, characterized in that it is provided in a form in which a line in a protruding or recessed form is formed on the surface of the polluted water blocking film toward the purified water zone to guide the flow of the purified water.
According to claim 1,
The lakeside division,
The lake purification system, comprising at least one; buoy (A) provided on the top of the polluted water blocking membrane so that the top of the polluted water blocking membrane is located on the water surface.
According to claim 1,
The lakeside division,
In order to maintain the shape in which the polluted water blocking membrane is stretched from the surface of the lake toward the bottom of the lake, a fixing weight (A) provided under the polluted water blocking membrane is provided; at least one lake purification system, characterized in that it comprises at least one .
According to claim 1,
The lakeside division,
The lake purification system, characterized in that it comprises at least one; buoy (B) provided on the upper portion of the channel forming film so that the upper portion of the channel forming film is located on the water surface.
According to claim 1,
The lakeside division,
In order to maintain the shape in which the flow path forming film is spread from the surface of the lake toward the bottom of the lake, a fixing weight (B) provided under the flow path forming film is at least one; characterized in that it comprises at least one, lake purification system.

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