KR20100088294A - Water purification system of eco-pond using a discharge-box - Google Patents

Abstract

PURPOSE: A water purification system of an eco-pond using a discharge-box is provided to obtain water having the constant water quality through secondary purification by using a discharge-box. CONSTITUTION: A water purification system(1) of an eco-pond comprises: a purification pond unit(10) in which plural filtering layers and a water plant are planted; a moorage unit(20) which forms the water channel by being connected to the purification pond unit; and an eco-pond unit(30) into which water flows through the connection with the moorage unit, wherein the purification pond unit receives water by being connected to one end of the transfer pipe. The water purification system further includes a discharge box(50) which has a filtering layer(57) to discharge the purified water to the outside.

Description

Water purification system of eco-pond using a discharge-box

The present invention relates to a system for purifying water quality of artificially constructed ecological pond, and more particularly, by installing a discharge box filled with a removable filter medium layer on the purification pond, it is easy to wash and reuse the filter medium layer. Improves and circulates the water quality step by step to provide the overall water quality in an optimal eco-friendly state, and it is easy to perform separate work for water quality management and the maintenance cost is low, so the ecological pond water purification using the discharge box is configured to maximize the efficiency of vegetation purification. It is about the system.

In general, ecological ponds are artificially formed to create natural beauty, and water is stored in the form of ponds where aquatic plants and fish can survive.

This ecological pond system is a type of wetland, which provides a space for various species to replace natural wetlands damaged or disappeared by urbanization and industrialization, and serves to store rainwater and penetrate underground. It is possible to prevent and increase groundwater, and increase the species of various plants and animals through the introduction of aquatic and wetland plants.

In addition, it is possible to create a variety of landscapes on the theme of water, and the social pond can be created in a wide range of areas, such as social and cultural pools. Brings effect.

Referring to FIG. 1 in more detail, the conventional ecological pond system 100 is largely purged with an ecological pond part 110 and a plurality of media layers and aquatic plants to purify the water of the ecological pond part 110. Bar 120 is divided into, in one embodiment for conventional water purification, the purification pond portion 120 is composed of a settling tank 121 and the filter filtration layer 122, the ecological pond portion 110 And the ground constituting the purification pond portion 120 is provided with a waterproof layer 101 to prevent the water of the ecological pond portion 110 and the purification pond portion 120 is absorbed into the ground.

In addition, between the purification pond portion 120 and the ecological pond portion 110 is configured to allow the water in the pond to flow naturally according to the natural flow method while supplying dissolved oxygen (DO) and the mooring portion for natural circulation of water ( 130 is provided.

At this time, the water of the ecological pond portion 110 passes through the first transfer pipe 102 by the pumping force of the pump (P1) and flows into the settling tank 121 through the second transfer pipe 103 via the pump. do. And, the precipitate contained in the water supplied to the settling tank 121 is treated in the settling tank 121 and the water supplied to the settling tank 121 is a plurality of layers installed in the purification pond portion 120 through the hole plate 123 Is filtered upwards to the filter filtration layer 122.

Meanwhile, if necessary, the pump P1 may not be provided, and the transfer pipes 102 and 103 may be directly connected to the settling tank 121 according to natural discharge.

On the other hand, the filter filtration layer 122 of the purification pond portion 120 is a natural filtration layer and the natural filter layer including the sand and gravel, etc. by putting the filter medium is easy to grow. In addition, aquatic plants (not shown) may be planted on top of the filter filtration layer 122.

As such, the purified water in the purification pond portion 120 flows through the mooring portion 130 has a circulation structure that is re-introduced into the ecological pond portion (110).

However, the water purification method of the ecological pond system 100 has a problem that the water quality is gradually worsened and contaminated because the water flow is weak and stays long even though most of the inflow and outflow of water is not made or made.

In addition, the water filtered from the purification pond portion 120 is precipitated by natural pressure and flows to the ecological pond portion 110 through the mooring portion 130, in this process flow rate is slowed to hinder the circulation of water and green algae occurs Done.

In addition, in the case of the purification pond portion 120 when the water of the ecological pond portion 110 is drawn in by using the pump P1 and the increase rate of naturally occurring pollutants and unspecified pollutants introduced from the outside exceeds the natural self-cleaning ability. Water quality is severely polluted, which causes various sediment sludges or sludge to be deposited on the bottom of the pond.

The accumulated contaminants decay over time or rise above the surface of the water, causing odor, polluting water quality, and at the same time being a major cause of damage to the landscape. Therefore, the necessity of continuously removing such settling sludge or sedimentary sludge is absolutely required.

In addition, the filter filtration layer 122 is often to remove the sludge precipitated in the sedimentation tank 121 to prevent the sedimentation tank 121 is blocked by the sludge, so as to periodically remove the sludge, maintenance of the pond There is a problem that requires a lot of attention and cost.

In other words, since the filter filtration layer 122 and the settling tank 121 are not separated from the purification pond part 120, there is a risk that the high quality soil or the waterproof layer in the purification pond part 120 is discarded together with water during internal cleaning.

In general, any organic material entering the pond needs oxygen to decompose. Dissolved oxygen (DO) in the water is abundantly supplied from the atmosphere in a stream structure with a shallow depth of water, the surface area and the constant wave flow in contact with the atmosphere.

However, in the conventional ecological pond system, organic matter is precipitated and adsorbed from the bottom of the filtration layer to be deposited as sludge, and as the concentration of organic matter increases, the oxygen is required to be blocked so that it is blocked from contact with the atmosphere, thereby supplying dissolved oxygen necessary for decomposition of organic matter. It is difficult to receive, and the leaching of pollutant loads due to anaerobic reactions, odor generation, and water purification treatment system function are significantly reduced.

The general method of removing sediment sludge or sediment sludge as described above was to drain all the water in the water body and dredge or discharge it using suction equipment. However, this method requires enormous manpower, time, and cost, and furthermore, as the pollutant increases again over time, it is inconvenient to repeat the pollutant removal operation periodically.

As another method of the related art, there is an attempt to inject a chemical into water or inject air to float a precipitate to remove it. However, when the body of the water is very wide, the removal efficiency is lowered, and because the drug and the air injection device and the removal of the injury to be additionally constructed, there was a very uneconomical problem.

The present invention has been made to solve the above-mentioned problems, while providing high overall water quality in an optimal environment-friendly state and high efficiency of water purification, and separate operation for water quality management is simple, and the maintenance and maintenance costs are low, maximizing the vegetation purification efficiency. It is an object of the present invention to provide an ecological pond water purification system using a discharge box.

In addition, to provide an ecological pond water purification system using a discharge box that is easy to clean and reuse the filter medium layer and improved filtration function by configuring a discharge box having a filter material layer that is easily removable in the purification pond portion. do.

In addition, the discharge box installed in the purification pond makes it easy to process internal sludge and foreign substances, increase the service life, and maximize the vegetation purification efficiency through the primary purification through the machine room and the secondary purification using the discharge box. Its purpose is to provide an ecological pond water purification system using a box.

In order to achieve the above object, the present invention, a plurality of filter layer and the purification pond portion in which aquatic plants are planted, the mooring portion in communication with the purifying pond portion to form a waterway, the water is in communication with the mooring portion In the ecological pond water purification system consisting of the inlet of the ecological pond portion circulating the water of the ecological pond portion to the purification pond portion,

The purifying pond portion and the ecological pond portion are connected by a transfer pipe for transferring water by a pump force; The purification pond portion is connected to one end of the transfer pipe is introduced into the water further comprises a discharge box for purifying the water by using a filter material layer removably filled therein to discharge the purified water to the top do.

In addition, the ecological pond water purification system, if necessary, is connected to the suction pipe for sucking the water of the ecological pond portion by the pump force, and the transfer pipe for transferring the water by the pump force to the purification pond portion, through the suction pipe It further comprises a machine room for primary purification of the sucked water through physical or biological filtration.

The discharge box and the ecological pond part of the purification pond part may further include a drain pipe which is opened and closed according to an external control signal on one side of the lower part of the purification pond part to suck and discharge the internal sludge and foreign substances to the outside by an external pump force.

At this time, the discharge box, the housing having a discharge opening connected to the transfer pipe on one side in a box shape with an upper opening, and a plurality of filter media layers removably filled in the inner space; A cover formed by detachably covering the opened upper part of the housing, and having a discharge port to cover the discharge port on one side of the upper surface, and a plurality of perforations formed on the discharge port to cover the discharge port. Characterized in that consisting of.

On the other hand, the machine room, the basket filter portion (F1) which is in communication with the suction pipe and physically filter the water, the pump (P) is in communication with the basket filter unit to provide a pump force, and the density is in communication with the pump is different Bio filter unit (BF) for physically and biochemically filtering the water introduced using the filter medium and adherent microorganisms, and UV sterilization unit (UV) sterilizes the water introduced in communication with the bio filter unit using ultraviolet rays and communicates with the transfer pipe (UV). It is configured to include).

The machine room may further include a blower (B) communicating with the air pipe to introduce air, and a control panel for automatically controlling the operation of the blower (B) and the pump (P), wherein the air pipe includes: Dissolved oxygen is supplied to the water passing through the discharge box in communication with the upper part of the filter medium layer of the discharge box.

As described above, according to the present invention, first, after the first purification of the water in the ecological pond portion through the machine room, by performing the second purification using the discharge box of the purification pond portion, it is always possible to obtain the same quality water and efficient purification. There is an advantage that can be made to create a nature-friendly environment.

Second, by providing a discharge box having a removable filter medium layer on one side of the purification pond portion, it is easy to clean and reuse the filter medium layer, and the separate operation for water quality management is simple and management maintenance costs are reduced.

Third, the discharge box is installed in the lower portion of the discharge pipe is easy to remove the internal sludge and foreign matter only by simple water cleaning, the filter material layer is easy to reuse for reuse by washing.

Fourth, by supplying air directly to the discharge box using a brower in the machine room there is an effect to maximize the purification efficiency by supplying dissolved oxygen to the water to be purified.

Fifth, since the pollution of the purification pond is not severe and the circulation and flow of the water is natural, it is possible to create a pleasant and beautiful environment because it can create natural beauty and harmonious scenery with the surrounding natural environment.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the ecological pond water purification system using a discharge box according to the present invention.

Figure 2 (a) (b) is a schematic diagram showing an ecological pond water purification system using a discharge box according to the present invention, Figure 3 is a discharge box applied to the ecological pond water purification system using a discharge box according to the present invention. 4 is an exploded perspective view illustrating a discharge box according to FIG. 3.

In addition, Figure 5 is a cross-sectional view showing a discharge box according to Figure 3, Figure 6 is a schematic installation plan view showing a machine room applied to the ecological pond water purification system using the discharge box according to the present invention, Figure 7 is a present invention It is a state diagram showing the applied state of the ecological pond water purification system using the discharge box according to.

As shown, the ecological pond water purification system 1 using the discharge box according to the present invention, the general ecological pond water quality consisting of a purification pond portion 10, the mooring portion 20 and the ecological pond portion 30 In the purifying system, the purifying pond part 10 is configured to further include a discharge box 50 having a filter material layer 57 that is easily and easily removable.

At this time, the discharge box 50 is preferably located on the water of the purification pond portion 10, and communicates with the transfer pipe (40a) connected to the ecological pond portion 30 and the water introduced through the transfer pipe The water is purified prior to the natural purification by the purification pond 10 by filtration through the internal filter medium layer 57 and discharged to the purification pond 10.

Such a filter medium layer 57 provided in the discharge box 50 is easily detached and easy to clean and reuse, thereby increasing the water purification efficiency by first purifying water introduced into the purification pond part 10.

In general, the purification pond portion 10 is a plurality of layers and aquatic plants are planted, the water is purified while sequentially passing through the layer. In addition, the filter layer is preferably configured to prevent the contaminants or foreign substances from falling to the upper layer by installing a fine particle filter.

In one embodiment, referring to Figure 2 (a), the ecological pond water purification system 1 according to the present invention, the water from the ecological pond portion 30 to increase the water purification efficiency through the machine room 70 Alternatively, biochemical filtration, that is, a first purification process, transfers it to the discharge box 50 of the purification pond part 10, and a second purification process using the filter medium layer 57 in the discharge box 50. Have

In more detail, the present invention is a purifying pond 10, a plurality of filter media layers and aquatic plants are planted, the mooring portion 20 in communication with the purifying pond and forming a waterway, and the mooring portion is in communication with the water The ecological pond water purification system 1 is composed of the introduced ecological pond portion 30 to circulate and purify the water in the ecological pond portion to the purification pond portion.

At this time, the machine room 70, the suction pipe (40b) for suctioning the water of the ecological pond portion 30 by the pumping force, and the transfer pipe for transferring the water by the pumping force to the purification pond (10) ( 40a) is connected, and the water sucked through the suction pipe 40b is configured to be physically or biologically filtered through a separate device inside the machine room for primary purification.

The machine room 70 is a biochemical filtration occurs by the microorganisms attached to the surface of the filter medium while physically filtering the removal of foreign matter by sequentially passing the water by using the media of different densities.

In addition, by installing a device equipped with a UV lamp on one side to irradiate water with the strongest germicidal power of ultraviolet light to destroy the DNA of bacteria.

This machine room 70 will be described in more detail below.

In addition, the purification pond portion 10 is connected to one end of the transfer pipe (40a) is introduced into the primary purified water in the machine room 70, by using a filter material layer 57 is removably filled inside It further comprises a discharge box 50 for purifying the water secondary to discharge the purified water to the upper.

Ecological pond water purification system 1 using the discharge box according to the present invention made as described above, the primary water is supplied to the system using a constant or heavy water, the water in the ecological pond portion 30 by sucking the machine room ( 70).

The water sent to the machine room 70 is subjected to the primary purification and is transferred to the purification pond portion 10 through the transfer pipe 40a to pass through the filter medium layer 57 of the discharge box 50 while the purification pond portion ( 10) is discharged into.

Then, the discharged water is naturally purified by the filter media layer and the aquatic plants in the purification pond portion 10 and flows to the ecological pond portion 30 through the mooring portion 20.

On the other hand, referring to Figure 2 (b), if necessary, the water to the discharge box 50 using the pumping power of the underwater pump (P) installed in the ecological pond portion 30 without installing the machine room 70. It may be configured to purify water by sending and filtering.

In general, since the green space of the apartment is not deep enough to use the machine room 70, the water purification system is constructed using only the submersible pump P1 and the discharge box 50.

More specifically, the present invention comprises an ecological pond water purification system consisting of a purifying pond part 10, a mooring part 20, and an ecological pond part 30 to circulate and purify the water of the ecological pond part by the purifying pond part ( Configure 1).

At this time, the purification pond portion 10 and the ecological pond portion 30 is connected by a transfer pipe (40a) for transferring water by the pump force, the purification pond portion 10 of the transfer pipe (40a) One end is connected to the water is introduced, and further comprises a discharge box 50 for purifying the water by using the filter medium layer 57 is detachably filled therein to discharge the purified water to the outside.

On the other hand, referring again to Figure 2 (a) (b), the mooring portion 20 is appropriately mixed with a low flow rate and a fast place by planting a purified plant in a place where the flow rate is slow to achieve water purification, dropping in a fast place It will create a space where air and water can be mixed to increase the amount of dissolved oxygen (DO) in the water to help purify the water.

In other words, the mooring part 20 has a height difference (a, b) and a boundary between the purifying pond part 10 and the ecological pond part 30, respectively, so that water that is naturally falling is dissolved oxygen (DO). It is configured to include more.

Preferably, the purification pond portion 10 is configured to be positioned higher than the ecological pond portion 30, it is preferable that the water flows naturally in the height difference (a, b).

On the other hand, the discharge box 50 and the ecological pond portion 30 of the purification pond portion 10 is opened and closed in accordance with an external control signal on the lower one side to suck the internal sludge and foreign substances to the outside by an external pumping force to discharge. Drain pipes 60a and 60b are further included.

In addition, the sludge or foreign matter sucked and removed through the drain pipe (60a, 60b) is preferably separately transported to have a process to be treated in a sump or a separate treatment system or discharged to the stream.

Meanwhile, referring to FIG. 3 to FIG. 5, the discharge box 50 applied to the present invention will be described in more detail as follows.

The discharge box 50 applied to the ecological pond water purification system 1 using the discharge box according to the present invention includes a housing 50b having a filter material layer 57 and an upper portion of the housing 50b. The cover 50a is formed with a perforated tube so that the purified water therein can be discharged to the outside while covering.

At this time, the cover (50a) and the housing (50b) is provided with a coupling structure and a gripper grip 52, such as a fixed latch 53 formed on one side has a structure that is easily removable.

In addition, the housing 50b has an inner space in the shape of a box having an upper opening, and a plurality of housings 50b may be arbitrarily installed or adjusted according to the size of the ecological pond system.

In addition, the housing 50b includes a discharge port 50b-1 connected to the transfer pipe 40a on one side, and a plurality of filter material layers 57 removably filled in the internal space. As described above, the lower portion, that is, the bottom plate, is provided with a drain tube 60a used for internal cleaning.

Preferably, the filter medium layer 57 is made of polypropylene synthetic fibers and physically filtered while biological filtration by microorganisms occurs.

The filter material layer 57 is detachably configured to the housing 50b, which is economical and easy to handle because it can be washed and reused, and is provided inside the housing 50b so that the flow of incoming water is less affected. Less deformation.

In addition, the cover 50a covers the opened upper portion of the housing 50b in a detachable manner, and the discharge port 50a-1 is configured to discharge water purified by the filter medium layer 57 to one side of the upper surface of the housing 50b. ) And an upper discharge punching plate 51 formed with a plurality of perforations 51-1 covering the discharge hole.

Therefore, the water flowing into the housing 50b of the discharge box 50 through the transfer pipe 40a is purified while passing through the filter medium layer 57 and the upper discharge punching plate 51 of the discharge port of the cover 50a. It is discharged to outside through).

Then, the purified and discharged water is introduced into the purification pond portion 10, the natural purification process is circulated to the ecological pond portion 30 is re-introduced.

On the other hand, in more detail, the housing 50b of the discharge box 50 has a height difference with an inner bottom surface to form a lower space layer s1 and is installed on the mounting frame 54 and the upper portion of the mounting frame. The lower perforated plate 55 which is seated and the filter medium layer 57 is seated on the top, and has a plurality of perforations 55-2, is seated on the upper part of the filter medium layer 57, and an upper surface thereof is a bottom surface of the cover 50a. It has a height difference with the upper space layer (s2) to form a plurality of perforations (56-1) is configured to further comprise an upper perforated plate (56).

At this time, the lower perforated plate 55 and the upper perforated plate 56 serves as a strainer and at the same time the water purified by dividing the inside of the housing 50b into the lower space layer (s1), the filter medium layer 57 and the upper space layer (s2). To facilitate air inflow.

And, as will be described later, the upper space layer (s2) is purged by communicating with the air pipe (80c) in which the air generated in the brower (Fig. 7, B) is installed in the interior of the machine room 70, as necessary It will supply abundant dissolved oxygen (DO) to the water.

In addition, the mounting frame 54 preferably has a side frame 54a that protrudes along the inner circumferential surface of the housing, a first horizontal frame 54b that crosses the side frame, so as to increase the purification efficiency and to facilitate installation. A second horizontal frame 54c communicating with the transfer pipe 40a in a tubular shape and crossing the side frame to cross the first horizontal frame and having a plurality of injection nozzles 54c-1 formed therein; It is configured to include.

At this time, the second horizontal frame (54c) by spraying the water to the injection nozzle (54c-1) by using the pressure of the water flowing through the transfer pipe (40a) when cleaning the interior of the discharge box (50) the housing (50b) Sludge and foreign matter in the) is discharged to the outside through the lower drain pipe (60a) to be cleaned.

3 to 5, the use state of the discharge box 50, that is, when the water purification and internal cleaning when described as follows.

First, referring to a process of purifying water, water introduced through the transfer pipe 40a flows into the discharge box 50, that is, into the internal space of the housing 50b through the discharge port 50b-1. At this time, the drain pipe (60a) provided on the lower side of the discharge box 50, more specifically, one side of the bottom plate is a state in which the movement of water is blocked in a closed state, the introduced water of the housing (50b) While filling up the interior, the filter medium layer 57 passes through the upper space layer s2. Then, the water purified by the filter medium layer 57 is discharged to the outside through the upper discharge punching plate 51 of the cover 50a and flows into the purification pond 10.

On the other hand, as time passes, foreign matter including sludge is accumulated in the filter medium layer 57 little by little, and foreign matter including sludge is accumulated in the lower space layer s1 of the housing 50b.

These foreign matters can be determined according to the processing capacity of the discharge box 50, and the internal cleaning is performed.

At this time, the drain pipe 60a of the discharge box 50 is opened according to an external control signal, and the water in the discharge box is discharged to the outside through the drain pipe 60a together with the sludge and the foreign matter inside the housing. Meanwhile, in order to facilitate internal cleaning, water is introduced through the transfer pipe 40a by an external pumping force, and water flowing through the transfer pipe 40a passes through the second horizontal frame 54c. Through the injection nozzle 54c-1, it is blown by the pressure.

Water sprayed through the injection nozzle 54c-1 cleans every corner of the housing 50b to separate sludge and foreign matter and discharges it to the outside through the drain pipe 60a.

6, the machine room 70 applied to the present invention will be described in detail as follows.

The machine room 70 includes a control panel 71 so as to control the operation of the water purification system 1 of the present invention therein, and apparatuses capable of primarily purifying water in the ecological pond part 30 are provided. It is provided. In addition, the machine room 70 may be installed in a space or a basement with a low exposure so as to look beautiful.

In more detail, referring to the drawing, the machine room 70 is connected to the ecological pond part 30 and communicates with the suction pipe 40b for sucking and transferring water by pumping force to filter baskets for physically filtering water. F), a pump (P) that communicates with the basket filter unit to provide a pump force, and a biofilter unit that physically and biochemically filters the introduced water using media and adherent microorganisms that communicate with the pump and have different densities. And a UV sterilization unit (UV) which sterilizes water introduced into and communicated with the biofilter unit using ultraviolet rays and communicates with the transfer pipe 40a.

At this time, the basket filter unit (F1) is filtered through the primary physical filter using a general filtration filter.

And, the pump (P) is a place for generating the pump force responsible for the purification of the water purification system 1 of the present invention is controlled through the control panel 71 and maintains the flow rate properly by the pump force, The pump alone meets purification and mooring arrangements and is easy to maintain.

In addition, the bio-filter unit (BF) by the microorganisms attached to the surface of the filter medium filled in the filter while physically removing the foreign matter by using the media of different densities of water introduced by using the pressure of the pump (P) It is a kind of pressure filtration device that removes turbidity by biochemical filtration.

In addition, the ultraviolet sterilization unit (UV) uses an ultraviolet lamp to prevent bacterial infection such as chlorella, rotifer culture water by irradiating ultraviolet light to the water passing therethrough, and sterilize pathogenic bacteria by water quality. Preferably, the ultraviolet rays destroy bacteria DNA by irradiating 235NM, which is the most sterilizing light.

In addition, if necessary, the machine room 70 is connected to the air pipe (80c) blower (B) for introducing air, and a control panel for automatically controlling the operation of the blower (B) and the pump (P). It is comprised further including 71.

This is for supplying dissolved oxygen to the water to be purified, the air pipe (80c) is the upper portion of the filter medium layer 57 of the discharge box 50, more specifically the air ball (Fig. 4, 50b-2) and It communicates and blows air into the upper space layer (FIG. 5, s2) inside the discharge box, which forms an air layer to supply dissolved oxygen (DO) to the water passing through the discharge box.

As described above, the ecological pond water purification system 1 using the discharge box according to the present invention includes a discharge box 50 in which the filter medium layer 57 is easily detached from the purification pond part 10. It is configured to maximize the purification efficiency and ease of management.

7 is a state diagram showing the applied state of the ecological pond water purification system using the discharge box according to the present invention.

Referring to this, as shown in the ecological pond water purification system 1 using the discharge box according to the present invention, in the construction of the ecological pond, the purification pond portion provided with a plurality of discharge box 50 according to the size 10, the mooring portion 20 and the ecological pond portion 30 in communication with the purification pond portion 10 to form a waterway.

Then, the machine room 70 is connected to the suction pipe 40b and the transfer pipe 40a.

Water introduced into the ecological pond portion is first purified while passing through the machine room 70 through the suction pipe 40b, and flows into the discharge box 50 of the purification pond portion 10 through the transfer pipe 40a. Secondary purification is carried out through the box of filter media.

At this time, the filter medium layer of the discharge box is easy to detach and easy to manage and maximize the purification efficiency.

On the other hand, the water passing through the discharge box is discharged to the upper portion of the discharge box flows into the purification pond portion 10, purifying according to the filtration structure of the aquatic plants and purification pond portion 10 through the mooring portion 20 It will have a circulation structure flowing into the ecological pond portion 30 again.

And, the lower portion of the discharge box 50 and the ecological pond portion 30 is provided with drain pipes (60a, 60b), when the sludge or foreign matters accumulated during the cleaning operation by discharging it to the outside through the drain pipe for separate processing To be.

Preferably the drain pipe (60a, 60b) has a structure that is connected to the outside of the sump or river.

In addition, the ecological pond portion 30 is installed to the overflow pipe 90 as necessary so that the water depth can be maintained and the water above a predetermined height is introduced into the overflow pipe 90 through the outer hole 91 Again, it is separately processed through the drain pipe 60b.

The present invention described above is limited to the above-described embodiment and the accompanying drawings as various substitutions and modifications can be made within a range without departing from the technical spirit of the present invention for those skilled in the art. It doesn't happen.

1 is a schematic diagram showing an ecological pond system according to the prior art;

Figure 2 (a) (b) is a schematic diagram showing an ecological pond water purification system using a discharge box according to the present invention.

Figure 3 is a perspective view showing a discharge box applied to the ecological pond water purification system using a discharge box according to the present invention.

4 is an exploded perspective view showing the discharge box according to FIG.

5 is a cross-sectional view showing a discharge box according to FIG.

Figure 6 is a schematic installation plan view showing a machine room applied to the ecological pond water purification system using a discharge box according to the present invention.

Figure 7 is a use state showing the applied state of the ecological pond water purification system using a discharge box according to the present invention.

*** Explanation of symbols for main parts of drawings ***

1: Ecological pond water purification system using discharge box

10: purification pond part 20: mooring part

30: ecological pond 40a: transfer pipe

40b: suction pipe 50: discharge box

50a: cover 50b: housing

51: upper discharge punched plate 57: filter medium layer

60a, 60b: Drain pipe 70: Machine room

80: air tube

Claims (9)

A purifying pond part 10 in which a plurality of layers of layers and aquatic plants are planted, a mooring part 20 in communication with the purifying pond part, and forming a water path, and an ecological pond part in which water flows in communication with the mooring part ( In the ecological pond water purification system (1) consisting of 30) to circulate and purify the water of the ecological pond portion to the purification pond portion, The purification pond portion 10 and the ecological pond portion 30 are connected by a transfer pipe (40a) for transferring water by the pump force; The purification pond portion 10 is one end of the transfer pipe (40a) is connected to the water is introduced, purifying the water using a filter medium layer 57 is removably filled inside the purified water to the outside Ecological pond water purification system using a discharge box, characterized in that further comprises a discharge box (50) for discharging to the. A purifying pond part 10 in which a plurality of layers of layers and aquatic plants are planted, a mooring part 20 in communication with the purifying pond part, and forming a water path, and an ecological pond part in which water flows in communication with the mooring part ( In the ecological pond water purification system (1) consisting of 30) to circulate and purify the water of the ecological pond portion to the purification pond portion, The ecological pond water purification system, the suction pipe (40b) for suctioning the water of the ecological pond (30) by the pumping force, and the transfer pipe (40a) for transferring the water by the pumping power to the purification pond (10) ) Is further connected, and further comprises a machine room (70) for primary purification of the water sucked through the suction pipe through physical or biological filtration; The purification pond portion 10 is connected to one end of the transfer pipe (40a) is the primary purified water flows in the machine room 70, the water using the filter medium layer 57 is removably filled inside Ecological pond water purification system using a discharge box, characterized in that further comprises a discharge box (50) for secondary purification to discharge the purified water to the outside. The method according to claim 1 or 2, The mooring part 20 has a height difference (a, b) and a boundary between the purifying pond part 10 and the ecological pond part 30, respectively, so that water naturally falling further includes dissolved oxygen (DO). Ecological pond water purification system using a discharge box, characterized in that the configuration. The method according to claim 1 or 2, The discharge box 50 and the ecological pond part 30 of the purification pond part 10 are opened and closed in accordance with an external control signal on one side of the lower part to drain and discharge the internal sludge and foreign substances by the external pump force. Ecological pond water purification system using a discharge box, characterized in that the tube (60a, 60b) is further included. According to claim 1 or 2, wherein the discharge box 50, A housing 50b provided with a discharge port 50b-1 connected to the transfer pipe 40a at one side in a box shape having an upper opening, and a plurality of filter material layers 57 removably filled in an inner space; A plurality of perforations covering the open upper part of the housing to be detachably attached to the discharge port 50a-1 and the discharge port to discharge the purified water by the filter medium layer 57 to the outside on one side of the housing. Ecological pond water purification system using a discharge box, characterized in that consisting of a cover (50a) is formed a top discharge punching plate (51) formed (51-1). The method of claim 5, wherein the housing (50b), It has a height difference with the inner bottom surface to form a lower space layer (s1) is installed, the mounting frame 54, and the filter medium layer 57 is seated on the upper portion of the mounting frame on the top and a plurality of perforations (55-) 2) is formed on the lower perforated plate 55, the filter medium layer 57, and the upper surface has a height difference with the bottom surface of the cover 50a to form an upper space layer (s2) and a plurality of perforations 56 -1) ecological pond water purification system using a discharge box, characterized in that it further comprises an upper perforated plate 56 formed. The method of claim 6, The mounting frame 54, the side frame 54a protruding along the inner circumferential surface of the housing, the first horizontal frame 54b crossing the side frame, the tubular communication with the transfer pipe 40a A discharge box comprising a second horizontal frame (54c) having a plurality of injection nozzles (54c-1) formed at a lower portion thereof and crossing the side frame so that water is introduced and intersects with the first horizontal frame. Ecological pond water purification system. 3. The method of claim 2, The machine room 70 is in communication with the suction pipe 40b, a basket filter part F1 for physically filtration of water, a pump P in communication with the basket filter part to provide a pump force, and communication with the pump. Biofilter unit (BF) for physically and biochemically filtering the water introduced by using different density media and attached microorganisms, and the water introduced in communication with the biofilter unit using ultraviolet light to sterilize the transfer pipe 40a and Ecological pond water purification system using a discharge box, characterized in that it comprises a UV sterilization unit (UV) connected. The method of claim 8, The machine room 70 further includes a blower (B) communicating with the air pipe (80c) for introducing air, and a control panel (71) for automatically controlling the operation of the blower (B) and the pump (P). Composed, The air pipe 80c communicates with the upper portion of the filter medium layer 57 of the discharge box 50 to supply dissolved oxygen (DO) to the water passing through the discharge box. system.

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