KR20200136542A - Sediment purification and capping device using nano bubbles - Google Patents

Abstract

The present invention relates to a sediment purification and capping device using nano-bubbles and, more specifically, to a sediment purification and capping device for separating sediment deposited on the bottom of a natural water system by binding a binder and the nano-bubbles into a natural water system and then depositing the same. The sediment purification and capping device using nano-bubbles according to the present invention prevents environmental pollution by binding the binder and the nano-bubbles, depositing the same, and separating the sediments in the natural water system. The sediment purification and capping device using nano-bubbles according to the present invention can easily solve a clogging problem of a nozzle by using a porous nozzle capable of easily replacing an internal porous member.

Description

Sediment purification and capping device using nano bubbles {SEDIMENT PURIFICATION AND CAPPING DEVICE USING NANO BUBBLES}

The present invention relates to a sediment purification and capping apparatus using nanobubbles, and relates to a sediment purification and capping apparatus for separating sediment precipitated at the bottom of a natural water system by binding a binder and nanobubbles to a natural water system and then sedimentation.

Bubble means that gas enters into a liquid or solid and swells like a bubble. Among these bubbles, bubbles containing gas in the liquid are finely bubbled when used for water treatment, etc., and a gas-liquid mixture of gas and liquid is bubbled using a bubble generating device including a splitter tank.

These bubbles are used to purify the natural water system, and mainly use a method of adsorbing floating matter and then floating it to the surface to collect it. However, although it is possible to purify water by this method, there is a problem in that it is not possible to perform any purification action on the sediment already deposited on the bottom of the natural water system, and consequently, the pollution of the natural water system cannot be improved.

In addition, when a bubble generating device is used to purify a natural water system, water, which is a liquid required for bubble generation, is mainly supplied from the natural water system. However, in this case, there is a problem in that the nozzle is frequently clogged by the floating material contained in the water of the natural water system, and thus bubbles cannot be continuously generated.

Korean Patent Publication No. 10-0982833 (registered on September 10, 2010)

An object of the present invention is to provide a sediment purification and capping device capable of preventing environmental pollution by sediment.

Another object of the present invention is to provide a sediment purification and capping device capable of preventing clogging of a nozzle.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

The sediment purification and capping device using nano-bubbles according to the present invention is a sediment purification and capping device that combines nano-bubbles and a binder to precipitate in a natural water system, and a nano-bubble generator for generating and discharging nano-bubbles, and a nano-bubble and It includes a binder discharge device for discharging the binder to be combined.

The binder contains trivalent ions or heavy metals.

The nano-bubble generator includes a porous nozzle that generates bubbles with inhaled water and air, and the porous nozzle has a column shape but can be opened and closed, and a connection path through which water and air are introduced is connected to one side, and bubbles are formed on the other side. A housing to which a discharge path for discharge is connected, and a columnar porous member provided in the housing may be included.

The sediment purification and capping apparatus using nano-bubbles according to the present invention can prevent environmental pollution by separating the sediment of the natural water system by combining the binder and the nano-bubbles, and then sedimenting them.

In addition, the sediment purification and capping device using nanobubbles according to the present invention can easily solve clogging of the nozzle by using a porous nozzle that can easily replace the porous member inside.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a conceptual diagram of a sediment purification and capping apparatus using nanobubbles according to the present invention.
2 is a perspective view according to a modified example of the splitter tank in the sediment purification and capping device using nanobubbles according to the present invention.
3 is a perspective view according to a modified example of a splitter tank and a connection path in the sediment purification and capping device using nano bubbles according to the present invention.
4 is a perspective view of a porous nozzle in a sediment purification and capping device using nano bubbles according to the present invention.
5 is a cross-sectional view of a porous member in the sediment purification and capping apparatus using nanobubbles according to the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, when it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

1 is a conceptual diagram of a sediment purification and capping apparatus using nanobubbles according to the present invention.

The apparatus for purifying and capping sediment using nano-bubbles according to the present invention includes a nano-bubble generator (BG) for discharging nano-bubbles into a natural water system, and a binder discharging device for discharging a binder into the natural water system ( 400).

The nano-bubble generator (BG) generates nano-bubbles using air and natural water. To this end, the nano-bubble generator (BG) includes water through the water inlet path 110 through which water is introduced, the air inlet path 120 through which air is introduced, the water inlet path 110 and the air inlet path 120. A pump 200 for introducing air, a splitter tank 300 for mixing air and water introduced by the pump 200, and a discharge path 140 for discharging air bubbles generated in the splitter tank 300 are included.

The water inlet path 110 introduces water to be used for generating air bubbles. In general, when a bubble generator is used for the purpose of purifying a natural water system, water of the natural water system is used. In this way, when water of a natural water system is used, floating matter included in the natural water system may flow into the water inlet path 110 together with water. Therefore, the present invention removes the floating material through the ball valve type nozzle 400 to be described later.

The air inlet path 120 introduces air to be used for generating air bubbles. Here, as the gas flowing into the air inlet path 120, other gases such as nitrogen may be introduced in addition to air as necessary.

The pump 200 allows water and air to be sucked into the water inlet passage 110 and the air inlet passage 120. To this end, the pump 200 is directly connected to the water inlet passage 110 and the air inlet passage 120, and the water and air introduced through the pump 200 are between the pump 200 and the splitter tank 300. It moves to the splitter tank 300 through the formed connection path 130.

The splitter tank 300 mixes and splits water and air introduced into the water inlet path 110 and the air inlet path 120 through the pump 200 to generate air bubbles. To this end, a plurality of plates spaced apart from each other such that a partial region is opened in the splitter tank 300 or a plurality of perforated plates partitioning the inside of the splitter tank 300 may be provided. Of course, the present invention may additionally include a nozzle for generating smaller air bubbles at the rear end of the splitter tank 300, that is, at the end of the discharge path 140.

The binder discharging device 400 discharges the binder to be combined with the nanobubbles. Here, the binder includes a trivalent ion or a heavy metal, which may include Al(III), Fe(III), and the like. In addition, the binder discharged from the binder discharge device 400 is combined with the nanobubbles discharged from the nanobubble generator (BG). The nanobubbles do not float to the surface of the natural water system and have a strong property of staying in the water. By combining the binder with the nanobubbles, they accumulate on the bottom of the natural water system, that is, on the sediment to separate the sediment from the natural water system. In addition, the natural water bottom capped accordingly becomes anaerobic, and the sediment is corroded and purified.

As described above, the present invention can prevent environmental pollution by separating the sediment of natural water by separating the binder and the nano-bubbles after combining the binder and the nano-bubbles.

Meanwhile, according to the present invention, by changing the structure of the splitter tank 300 described above, it can be operated like a nozzle.

2 is a perspective view according to a modified example of the splitter tank in the sediment purification and capping apparatus using nano bubbles according to the present invention, and FIG. 3 is a modification of the splitter tank and the connection path in the sediment purification and capping apparatus using nano bubbles according to the present invention It is a perspective view according to an example.

The porous nozzle 300 generates air bubbles with the introduced water and air. To this end, the porous nozzle 300 includes a housing 310 and a porous member 320 provided in the housing 310.

The housing 310 introduces water and air to discharge air bubbles generated through the porous member 320 accommodated therein. Here, in the present invention, in order to replace the porous member 320 provided in the housing 310, it is preferable to manufacture the upper portion of the housing 310 to open and close. Accordingly, the housing 310 includes a housing body 311 having a hollow tubular shape with a lower portion closed and an open upper portion, and a cover 312 for opening and closing the open upper portion of the housing body 311. Here, when the cover 312 closes the housing body 311, it is preferable to maintain airtightness so that water and air introduced into the housing 310 do not leak to the outside. Meanwhile, in the present embodiment, the housing 310 has a tubular shape, that is, a cylindrical shape, but the present invention is not limited thereto. For example, the housing 310 may be formed of an elliptical column or a polygonal column including a triangular column and a square column, and in this case, the outer shape of the porous member 320 to be described later is also formed to correspond to the housing 310 It is desirable.

Meanwhile, in the present embodiment, as shown in FIG. 3, at least one connection path hole 131 may be formed on a side surface of the connection path 130 provided in the hole of the porous member 320. In this case, it is possible to increase the bubble generation efficiency rather than discharging the gas-liquid mixture to the bottom of the hole of the porous member 320.

4 is a perspective view of a porous nozzle in a sediment purification and capping device using nano bubbles according to the present invention.

Referring to FIG. 4, in the porous nozzle 300 according to the present embodiment, unlike the porous nozzle 300 of the first embodiment described above, a hole is omitted in the porous member 320. Accordingly, the connection path 130 is connected to the upper portion of the housing 310, that is, the cover 312, and the discharge path 140 is formed in the lower portion of the housing 310, that is, the lower portion of the housing body 311. Further, in this case, it is preferable that the porous member 320 fills the interior of the housing 310 so that most of the gas-liquid mixture passes through the porous member 320.

5 is a cross-sectional view of a porous member in the sediment purification and capping apparatus using nanobubbles according to the present invention.

Meanwhile, the porous member 320 according to the present exemplary embodiment may have a guide 322 formed therein, as shown in FIG. 5. In this case, the path of the gas-liquid mixture passing through the porous member body 321 may be further lengthened to maximize the bubble generation efficiency. Moreover, this embodiment includes an outer case in which only a part of the upper portion of the porous member body 321 into which the gas-liquid mixture is introduced is opened, and only a part of the lower portion of the porous member body 321 is opened so that the air bubbles are discharged, The production efficiency can be further increased.

As described above with reference to the drawings illustrated for the present invention, the present invention is not limited by the embodiments and drawings disclosed in the present specification, and various by a person skilled in the art within the scope of the technical idea It is obvious that transformation can be made. In addition, even if not explicitly described and described the effects of the configuration of the present invention while describing the embodiments of the present invention, it is natural that the predictable effects of the configuration should also be recognized.

110: water inlet passage 120: air inlet passage
130: linkage 131: linkage hole
140: discharge path 200: pump
300: porous nozzle 310: housing
311: housing body 312: cover
320: porous member 321: porous member body
322: guide 400: binder discharge device

Claims (3)

As a sediment purification and capping device that combines nanobubbles and a binder to precipitate in a natural water system,
A nano-bubble generating device for generating and discharging the nano-bubbles,
Sediment purification and capping device using nano-bubbles comprising a binder discharge device for discharging a binder bonded to the nano-bubbles.
The method of claim 1,
The binder is a precipitate purification and capping device using nanobubbles containing trivalent ions or heavy metals.
The method of claim 2,
The nano-bubble generating device includes a porous nozzle that generates bubbles with sucked water and air,
The porous nozzle has a columnar shape but can be opened and closed, a connection path through which water and air are introduced is connected to one side, a discharge path for discharging air bubbles is connected to the other side, and a columnar porous member provided in the housing. Sediment purification and capping device using a nano-bubble containing.

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