KR200294895Y1 - Waste water treat equipment - Google Patents

Abstract

The present invention relates to a wastewater treatment device, and more particularly, to discharge the purified liquid through sterilization and bleaching by aeration to activate microorganisms without the separate air supply device and aeration device in the wastewater that has been pretreated. It relates to a waste water purification device.

The present invention is a discharge pump for introducing waste water that has undergone a pretreatment process, a plasma generator connected to the discharge pipe to supply anions, and a suction pump connected to the outlet side of the discharge pipe to suck and discharge waste water purified by anions to the outside. In the configuration, it is composed of a spiral aeration pipe that is connected between both ends of the discharge pipe and the suction pump, and a plurality of venturi pipe is installed at equal intervals in the aeration pipe to increase the flow rate of the waste water.

Description

Wastewater Treatment System {WASTE WATER TREAT EQUIPMENT}

The present invention relates to a wastewater treatment device, and more particularly, to discharge the purified liquid through sterilization and bleaching by aeration to activate microorganisms without the separate air supply device and aeration device in the wastewater that has been pretreated. It is about wastewater purification equipment.

The present invention also relates to a wastewater treatment apparatus capable of promoting decomposition of wastewater by applying the applicant's patent registration application No. 2002-32678 ozone and anion gas generator.

Figure 1 shows a schematic view of the wastewater treatment apparatus applying the patent application No. 2002-32678 ozone and anion gas generator of the present applicant, the discharge pipe 10 for introducing the wastewater after the pre-treatment process as shown, A plasma generator 20 connected to the discharge pipe 10 to supply ozone and anions, and a suction pump 40 connected to the outlet side of the discharge pipe 10 to suck and discharge waste water purified by ozone and anions to the outside. ) And a treatment tank 30 installed between the discharge pipe 10 and the suction pump 40.

The plasma generator 20 is the air in the atmosphere through the air inlet formed on one side of the housing case, the air is mixed in the negative ion gas generating tube made of glass and stainless steel tube located inside the case and ozone therebetween A high concentration of anion gas is contained, and the anion gas filled in the case is discharged through the outlet 21 connected to the discharge pipe into which the waste water is introduced.

Therefore, the wastewater flowing into the discharge pipe 10 and ozone and anion gas are mixed to decompose and sterilize the wastewater.

On the other hand, the treatment tank uses a mechanical surface aeration device or an acidic deep aeration device to purify organic sewage or wastewater.

Such a mechanical surface aeration device is built on the drive shaft of the drive unit so that the rotating body provided with the stirring blade is located on the upper surface of the water, and agitates the water surface of the aeration tank according to the rotation of the stirring blade. To increase the dissolved oxygen level.

However, the surface aeration device has a problem in that the purification of wastewater is inferior because the fusion between air and wastewater is limited to the surface of the rotating body on which the rotor is installed.

On the other hand, the diffuser deep aeration device forcibly injects the air in the atmosphere by using a blower or a compressor to the aeration device installed in the lower part of the aeration tank, and the diffuser to finely discharge the air supplied to the aeration device to the aeration tank Increase the amount of dissolved oxygen.

However, such a conventional aeration type aeration device is installed in the deep portion of the sediment is settled in the aeration tank is not easily clogged or failure of the diffuser, as well as a blower or compressor was used to require a separate power.

The purpose of the present invention is to solve such a conventional problem, a liquid which is purified through microbial and bleaching action by aeration to activate the microorganisms without the separate air supply and aeration device in the wastewater after the pretreatment process It is to provide a waste water purification apparatus for discharging.

Another object of the present invention relates to a wastewater treatment apparatus that can be applied to the applicant's patent registration application No. 2002-32678 ozone and anion gas generator to promote the decomposition of wastewater.

In order to achieve the above object, the present invention installs a plurality of venturi tubes at equal intervals to increase the flow rate of wastewater in a spiral aeration pipe into which wastewater is introduced.

1 is an exemplary view showing a conventional wastewater treatment apparatus.

2 is a perspective view according to the present invention.

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

4 is a perspective view of the venturi tube according to the present invention.

5 is a state of use of the present invention.

<Code Description of Main Parts of Drawing>

10: discharge pipe 20: plasma generator

30: treatment tank 40: suction pump

50: aeration pipe 60: venturi tube

70: case

Hereinafter, a preferred embodiment of the present invention according to the accompanying drawings in detail as follows.

A discharge pipe 10 for introducing wastewater that has undergone a pretreatment process, a plasma generator 20 connected to the discharge pipe 10 to supply ozone and anions, and an outlet side of the discharge pipe 10 to be purified by anion. In the configuration of the suction pump 40 to suck the waste water to the outside, a spiral aeration pipe 50 is connected between both ends of the discharge pipe 10 and the suction pump 40, and the aeration pipe 50 It is installed at equal intervals) consisting of a plurality of venturi tube 60 to increase the flow rate of the waste water.

The aeration pipe 50 is preferably made of a hollow metal material having excellent specific gravity and hardness, but may be formed of a plastic material excellent in impact resistance, if necessary.

The aeration pipe 50 is installed between the both ends of the discharge pipe 10 and the suction pump 40, it is made of a spiral formed smaller diameter than the discharge pipe 10 is dissolved in the ozone and anion gas inflow It generates vortex in the wastewater and quickly moves it to high pressure.

The aeration pipe 50 may have a length wound in a spiral according to the concentration and mass of the wastewater. For example, when the concentration and mass of the wastewater are large, the length of the aeration pipe is formed long, and the concentration and mass of the wastewater are small. In this case, it can be used by shortening the length of spiral winding.

The aeration pipe 50 can be installed by freely adjusting the installation length to 10m ~ 100m by installing a spiral wound in a narrow space made of a synthetic resin material that is easy to handle and store.

Connection flanges 51 having a plurality of coupling holes 51a formed therein are formed at both ends of the aeration pipe 50 to be coupled to the flanges 11 and 41 formed at the ends of the discharge pipe 10 and the suction pump 40. do.

Therefore, the aeration pipe 50 is firmly coupled between the discharge pipe 10 and the suction pump 40 so that the waste water flowing through the discharge pipe 10 does not leak to the outside.

The venturi tube 60 is installed in the aeration pipe 50 at regular intervals to increase the flow rate of the wastewater flowing into the aeration pipe 50 to be strongly sprayed into the suction pump 40.

The venturi tube 60 is coupled to be cut between the spiral aeration pipe 50 at regular intervals and sandwiched therebetween, as shown in FIGS. 3 and 4 to strongly spray the wastewater introduced into the aeration pipe 50. As shown in the figure, the diameter becomes narrower from one end to the center and wider toward the other end.

The venturi tube 60 is supported so as not to flow by the collar 61 when the collar 61 is formed at the outer periphery of the center and installed in the aeration pipe 50 cut at regular intervals.

Therefore, the waste water flowing through the discharge pipe 10 and the negative ions are fused into the aeration pipe 50, and the waste water is strongly aerated to activate the microorganism by the venturi tube 60 to purify the liquid purified through sterilization and bleaching. It can be discharged to the suction pump 40.

On the other hand, in order to protect the aeration pipe 50, the venturi tube 60 is provided with a case 70 surrounding the outer surface.

The present invention configured as described above, the wastewater undergoing the pretreatment process as shown in Figure 5 is introduced into the discharge pipe 10, the ozone and anion gas generated in the plasma generator 20 is discharged to the discharge pipe 10 by the siphon action Inflow, the waste water flowing in the discharge pipe 10 and the ozone and anion gas are fused and purified first.

Next, the aeration pipe 50 into which the waste water is first purified by fusion of the waste water with ozone and anions is helically formed to generate a vortex, and the venturi tube 60 installed at equal intervals in the aeration pipe 50. As a result, the amount of dissolved oxygen is increased to sterilize microorganisms and contaminants by increasing the flow rate of the introduced wastewater.

The above description is merely described one embodiment, the present invention is not limited to the above-described embodiment can be variously modified within the scope of the appended claims.

For example, the shape and structure of each component specifically shown in the embodiment of the present invention can be modified.

As described above, the present invention is a very useful design for discharging the purified liquid through sterilization and bleaching by aeration to activate microorganisms without the separate air supply device and aeration device in the wastewater that has been pretreated.

In addition, the present invention is a very useful design that can be applied to the applicant's patent registration application No. 2002-32678 ozone and anion gas generator to promote the decomposition of waste water.

Claims (2)

A discharge pipe 10 for introducing wastewater that has been subjected to a pretreatment process, A plasma generator 20 connected to the discharge pipe 10 to supply ozone and anions; In the configuration of the suction pump 40 is connected to the outlet side of the discharge pipe 10 to suck the waste water purified by ozone and anion to discharge to the outside, A spiral aeration pipe 50 connected at both ends between the discharge pipe 10 and the suction pump 40; The aeration pipe 50 is installed at equal intervals in the wastewater treatment apparatus including a plurality of venturi tube (60) to increase the flow rate of the wastewater. According to claim 1, The aeration pipe 50 is made of a hose of synthetic resin material waste water treatment device, characterized in that installed by adjusting the length freely.