KR100892179B1 - Waste water treatment apparatus using compressed air - Google Patents

Abstract

A wastewater treatment apparatus using compressed air is provided to purify wastewater by dispersing pulverized air bubble after pulverizing compressed air supplied to the wastewater. A wastewater treatment apparatus using compressed air includes a compressor(10), an air tank(20), an air manifold(30), a wastewater pump(40), a filter(50), a siphon pipe(60), a mixer(70). The air manifold diverges the supplied compressed air into a plurality of branch pipes(31)(32)(33)(34). The branch pipe is connected to an inlet of the siphon pipe. The rest of three branch pipes are connected to the mixer. The filter comprises crystal balls and wire meshes.

Description

Waste water treatment system using compressed air {WASTE WATER TREATMENT APPARATUS USING COMPRESSED AIR}

The present invention relates to a wastewater treatment apparatus using compressed air capable of purifying wastewater while minimizing pressure exerted by the wastewater by forming a spiral mixer in which compressed air and wastewater are mixed.

In general, in order to treat wastewater, the wastewater treatment apparatus using air is directly injected into the wastewater by compressed air from a compressor and mixed with the wastewater.

The compressed air in such a wastewater treatment device generates bubbles in the process of depressurizing and discharging it through a pressure reducing valve. However, in order to generate bubbles, a pressure reducing device is required separately, resulting in a large size of the device. There is a disadvantage in that it is not evenly distributed in the waste water.

In addition, since the wastewater supplied to the wastewater treatment device passes through the wastewater treatment device at a strong pressure, a problem remains that the mixer in which the wastewater is treated is damaged by the pressure of the wastewater.

It is an object of the present invention to provide a wastewater treatment apparatus using compressed air that can form a mixer in which the compressed air and wastewater are mixed in a spiral shape to purify the wastewater while minimizing the pressure exerted by the wastewater.

Another object of the present invention is to provide a wastewater treatment apparatus using compressed air that can purify the wastewater by crushing the compressed air supplied to the wastewater into small air bubbles and dispersing it evenly.

Wastewater treatment apparatus using compressed air according to the present invention, the compressor is compressed air; An air tank in which compressed air is stored in the compressor; An air manifold for branching a plurality of compressed air supplied from the air tank; A wastewater pump for supplying wastewater; A filter connected to the wastewater pump and filtering foreign substances contained in the wastewater supplied from the wastewater pump; A siphon tube connected to the filter and configured to regulate the pressure of the wastewater supplied from the wastewater pump; And it consists of a spiral tube is characterized in that it comprises a mixer for receiving waste water from the siphon tube and receiving compressed air supplied branched from the air manifold to the side.

Preferably, the filter is characterized in that consisting of a tube through which the inside, a crystal ball filled in the penetrated inside of the tube and a wire mesh coupled to both ends of the tube to prevent the crystal ball is lost.

Preferably, a check valve is formed between the wastewater pump and the filter to prevent the wastewater from flowing back.

In addition, a ball valve for regulating the pressure of the waste water may be coupled between the waste water pump and the filter.

In addition, between the siphon tube and the mixer may be coupled to the flexible joint for adjusting the length of the pipeline.

In addition, a nozzle into which the compressed air supplied from the air manifold is injected may protrude in the advancing direction of the waste water.

In addition, the inside of the mixer is characterized in that the air spraying film plate for pulverizing the compressed air injected from the nozzle at a predetermined interval spaced in front of the nozzle with small particles of air bubbles are formed.

Preferably, the air spray film plate is formed in a pair of fan-shaped shape that the vertices face each other, the center of the fan-shaped may be located in the center of the mixer.

Wastewater treatment apparatus using the compressed air of the present invention is formed in a spiral shape to minimize the pressure applied by the wastewater, there is an advantage that can be mixed while spraying the compressed air directly while passing the wastewater into the pipe.

In addition, the compressed air supplied to the wastewater can be crushed into small bubbles and evenly dispersed to purify the wastewater.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a schematic diagram of a wastewater treatment apparatus using compressed air according to the present invention, Figure 2 is a cross-sectional view of the main wastewater inlet in Figure 1, Figure 3 is a cross-sectional view of the filter according to the present invention, Figures 4a and 4b Is a detailed view of the mixing tube according to the present invention.

As shown in FIG. 1, the wastewater treatment apparatus using compressed air according to the present invention includes a compressor 10, an air tank 20, an air manifold 30, a wastewater pump 40, and a filter 50. The phone tube 60 and the mixer 70 are provided.

The compressor 10 receives external air and compresses the air at a constant pressure. Such a compressor 10 may be used, for example, a screw compressor.

The air tank 20 stores the compressed air to be used by receiving the compressed air from the compressor 10.

The air manifold 30 receives compressed air stored in the air tank 20 to branch through a plurality of branch pipes. For example, in the present invention, four branch pipes 31, 32, 33, and 34 may be branched through the air manifold 30, and one of the branch pipes 31 is introduced into the siphon pipe 60 below. It is connected to the side, the remaining three branch pipes (32, 33, 34) can be connected to the mixer 70 to supply compressed air. Nozzle 35 through which compressed air is injected is combined at the end of each branch pipe, and the compressed air is injected by mixing in the advancing direction of the wastewater.

The wastewater pump 40 supplies wastewater from the outside. Such a wastewater pump may be a multi-stage volute pump.

Filter 50 is a wastewater supplied through the wastewater pump is introduced to crush or filter foreign matter contained in the wastewater. As shown in FIG. 3, the filter 50 prevents the tubular body 51 penetrated therethrough and the crystal ball 52 and the crystal ball 52 filled in the penetrated interior of the tubular body 51 from being lost. It may be made of a wire mesh 53 coupled to both ends of the tubular body 51 in order to. Here, the tubular body 51 may be flanged to the pipeline through which wastewater passes.

The siphon tube 60 receives wastewater that has passed through the filter 50 and adjusts the pressure of the wastewater. At this time, one branch pipe 31 branched from the air manifold 30 is connected to the inflow pipe of the siphon pipe 60.

4A and 4B, the mixer 70 is composed of a spiral tube, receiving branched water from the siphon tube 60 and branching branches 32, 33, 34 branched from the air manifold laterally. Connected to receive compressed air and mix. At this time, the nozzle 35 to which the compressed air is injected is coupled to the end of each branch pipe, and the compressed air is injected by mixing in the advancing direction of the wastewater. This helical mixer can minimize the pressure exerted by the wastewater because the wastewater does not flow immediately before.

On the other hand, the inside of the pipe discharged nozzle of the branch pipe is formed with an air spray film plate 80, the air spray film plate 80 is formed in a pair of fan-shaped facing the vertices of each other, so that the vertex of one side protrudes Is formed. Accordingly, the wastewater can move along the sector, and the compressed air discharged from the nozzle is crushed into small bubbles while being mixed with the wastewater while hitting the vertex of the sector. At this time, one vertex may be formed to protrude forward to promote the crushing of the compressed air.

On the other hand, between the waste water pump 40 and the filter 50 may be formed with a check valve 41 for preventing the back flow of the waste water and a ball valve 42 for adjusting the pressure of the waste water.

In addition, between the siphon pipe 60 and the mixer 70, a flexible joint 43 for adjusting the length of the pipe can be coupled.

Hereinafter, the operation of the wastewater treatment apparatus using the compressed air according to the present invention.

First, the air compressed by the compressor 10 is stored in the air tank 20, and is branched into a plurality of branch pipes 31, 32, 33, and 34 through the air manifold 30.

In addition, the wastewater is supplied through the wastewater pump 40 and is introduced into the filter along the pipeline. At this time, the wastewater introduced by the check valve 41 formed between the wastewater pump 40 and the filter 50 may be prevented from flowing back, and the pressure of the wastewater introduced by the ball valve 42 may be adjusted. .

Wastewater introduced into the filter 50 passes through the crystal ball 52 filled therein to grind or filter the foreign matter in the solid form contained in the wastewater. That is, when the wastewater collides with the crystal ball 52 and is decomposable foreign matter, it is crushed into a small material, and the foreign matter that does not decompose remains.

Wastewater passing through the filter is passed to the siphon pipe 60 along the pipeline to control the pressure of the wastewater. At this time, the compressed air is mixed through the branch pipe (31) connected in the inlet pipe of the siphon pipe (60). Compressed air is decomposed into air bubbles while hitting the air spraying film plate 80 and mixed with the waste water to purify the waste water first.

The wastewater passing through the siphon tube 60 receives compressed air from the branch pipes 32, 33 and 34 connected to the side of the mixer while passing through the helical mixer to be mixed and secondaryly purified. At this time, the compressed air discharged from the nozzle of the end of the branch pipe is broken into air bubbles while hitting the air spray film plate 80 is easily and evenly mixed with the waste water.

Although the above has been described with reference to one embodiment of the present invention, various changes and modifications can be made at the level of those skilled in the art. Such changes and modifications may belong to the present invention without departing from the scope of the present invention. The scope of the present invention should be judged by the claims described below.

1 is a schematic diagram of a wastewater treatment apparatus using compressed air according to the present invention.

Figure 2 is a cross-sectional view of the main wastewater inlet in Figure 1;

3 is a cross-sectional view of the filter according to the present invention.

4a and 4b are detailed views of the mixing tube according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: compressor 20: air tank

30: air manifold 31, 32, 33, 34: branch pipe

35 nozzle 40 waste water pump

41: check valve 42: ball valve

50: filter 51: tube

52: crystal ball 53: wire mesh

60: siphon tube 70: mixer

80: air spray film plate

Claims (8)

A compressor to which air is compressed; An air tank in which compressed air is stored in the compressor; An air manifold for branching a plurality of compressed air supplied from the air tank; A wastewater pump for supplying wastewater; A filter connected to the wastewater pump and filtering foreign substances contained in the wastewater supplied from the wastewater pump; A siphon tube connected to the filter and configured to control the pressure of the wastewater supplied from the wastewater pump; And Comprising a spiral tube, the wastewater treatment apparatus using a compressed air comprising a mixer for receiving waste water from the siphon tube and receiving compressed air supplied branched from the air manifold to the side. According to claim 1, wherein the filter is characterized in that the inner tube through the tube, the crystal ball filled in the penetrated inside of the tube and the wire mesh is coupled to the both ends of the tube to prevent the crystal ball from being lost. Wastewater treatment device using compressed air. The wastewater treatment apparatus of claim 1, wherein a check valve is formed between the wastewater pump and the filter to prevent backflow of the wastewater. The wastewater treatment apparatus according to claim 1, wherein a ball valve for controlling the pressure of the wastewater is coupled between the wastewater pump and the filter. The wastewater treatment apparatus according to claim 1, wherein a flexible joint is formed between the siphon pipe and the mixer to adjust the length of the pipe. The wastewater treatment apparatus according to claim 1, wherein a nozzle into which the compressed air supplied from the air manifold is protruded in the advancing direction of the wastewater is disposed in the mixer. The wastewater treatment system of claim 1, wherein an air spraying membrane plate is formed in the mixer to crush the compressed air sprayed from the nozzle into small droplets of air at a predetermined interval in front of the nozzle. Device. 8. The wastewater treatment apparatus according to claim 7, wherein the air spraying membrane plates are formed in a pair of fan-shaped shapes in which vertices face each other, and the center of the fan-shaped particles is located at the center of the mixer.

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