KR200307988Y1 - sewage purifying device - Google Patents

Abstract

The present invention relates to a wastewater purification apparatus which discharges the supernatant sterilized and purified by the microorganism active water in the wastewater treatment step, and recycles and recycles the sludge of the microorganism active water.

In the wastewater purification apparatus according to the present invention is a wastewater purification apparatus in which wastewater is introduced into an oil-water separation tank, and the microbial active water is added and sterilized and purified through a multi-stage process, and the supernatant water separated by the sedimentation tank is recycled or discharged from the discharge tank. Recycling tube is formed in the settling tank is characterized in that for recycling by recycling the sludge of the microorganism active water precipitated in the settling tank.

Description

Wastewater Purifying Device

The present invention relates to a wastewater purification device, and more specifically, wastewater used to disinfect supernatant by disinfecting the wastewater used in homes by microbial active water in the purification treatment step, and circulating sludge of the microbial active water for recycling. It relates to a purification device.

Recently, the demand for water is increasing rapidly due to the rapid industrialization and urbanization caused by economic development, while the shortage of water is intensifying due to the depletion of water resources and the pollution of water due to the use of unlimited water.

In addition, even in such a lack of water resources, used and discarded water is discharged to rivers and seas intact, and measures to recycle water and prevent pollution are emerging as important social and economic problems.

The waste water, waste water, process water and other waste water used for clean treatment and reuse are repeatedly called heavy water, and the related facilities are called heavy water to prevent water pollution and secure stable and economical water resources. A heavy water treatment system that economically reprocesses process water in industrial areas with high levels of heavy metals and harmful components among water for various uses and cleans it with water for cleaning, landscaping, and toilets that do not require high cleanliness, such as drinking water. This is urgently needed.

Generally, water treatment technologies for treating wastewater include physical and chemical treatments having unit processes such as flocculation, sedimentation, separation, adsorption, ion exchange, and oxidation, aerobic treatment, anaerobic treatment, biological treatment by animals and plants and microorganisms, and the physical There are multi-stage treatments in which chemical treatments and biological treatments are combined as unit processes and combined.

The biological treatment process by the microorganism is applied to the screen process to filter out the relatively large contaminants contained in the waste water to the screen having a hole of uniform size, and to apply physical manipulation such as sedimentation separation to separate the heavier contaminants than gravity by gravity. Chemical unit process that removes suspended matter and sediment contained in wastewater primarily, and flocculates and sediments or adsorbs suspended solids using various chemicals such as flocculants, adsorbents and fungicides and kills synthetic resin pathogens. And biological unit processes such as decomposing non-sedimentable biodegradable organic substances by the action of microorganisms, converting them into gases, flocculating them into suspended solids, and removing them.

However, the wastewater purification treatment by biological treatment for administering microorganisms has a problem in that a large amount of microorganisms is consumed because the microorganisms must be frequently administered.

The present invention is proposed to solve the above problems of the prior art, the wastewater that can discharge the supernatant sterilized and purified by the microbial active water in the wastewater treatment step and recycle the microbial active water by circulating the sludge of the microbial active water. It is an object to provide a purification device.

Waste water purification device according to the present invention for achieving the above object is to introduce the waste water into the oil-water separation tank through the multi-step addition of microbial active water to sterilization and purification and to recycle or discharge the supernatant water separated through the sedimentation tank in the discharge tank In the wastewater purification apparatus, a recycling tube is formed in the settling tank, and the sludge of the microorganism active water precipitated in the settling tank is circulated and recycled.

1 is a process chart showing the working sequence of wastewater treatment according to a preferred embodiment of the present invention.

Figure 2 is a perspective view showing a connection state of the recycling pipe installed for the recycling of waste water according to the present invention.

Figure 3 is a process diagram showing another embodiment of the wastewater treatment sequence according to the present invention.

* Explanation of symbols for main parts of the drawings

100: oil and water separation tank 110: waste water

120: microorganism active water 140: flow tank

160: aeration tank 180: sedimentation tank

320: discharge tank 322: discharge hole

340: air blower 350: diffuser

400: microbial sludge 500: recycling tube

550: conveying pump

Hereinafter, with reference to the accompanying drawings, the configuration of the subject innovation will be described in more detail.

1 is a process chart showing the operation sequence of wastewater treatment according to a preferred embodiment of the present invention, Figure 2 is a perspective view showing a connection state of the supply pipe installed for recycling of wastewater according to the present invention, Figure 3 The flow chart showing another embodiment of the wastewater treatment sequence according to.

As shown in Figures 1 to 3, the wastewater purification apparatus according to the present invention is the wastewater 110 is introduced into the oil-water separation tank 100, the microbial active water 120 is added to the sterilization and purification process through the multi-step sterilization tank In the waste water purification apparatus for recycling or discharge the supernatant water separated by passing through the 180 in the discharge tank 320, the sedimentation tank 180 is extended to the recycling pipe 500 is formed microorganism active water precipitated in the sedimentation tank 180 The sludge 400 of 120 is circulated and recycled.

Hereinafter, described in detail an embodiment of the present invention made of a configuration as described above.

1 and 2, the wastewater purification apparatus according to an embodiment of the present invention is the oil and water separation tank 100, the flow tank 140, aeration tank 160, sedimentation tank 180 and discharge tank 320 Are sequentially connected structures.

The oil-water separation tank 100 functions to filter out contaminants from the wastewater 110 introduced, and it is preferable to install a screen (not shown) to remove even small contaminants.

In addition, the oil-water separation tank 100 administers the microbial active water 120 based on fish so that the waste water 110 can be purified through a multi-step process.

The oil / water separation tank 100 separates and removes a lighter component than the liquid, for example, an oil component, from the wastewater 110 passing through the screen.

In addition, the flow tank 140 is a tank for maintaining the flow rate of the waste water 110 flowing from the oil-water separation tank 100 at a constant level, if the waste water flows in a constant amount every hour, the flow tank 140 is unnecessary, but the actual waste water 110 is a device necessary to control the fluctuation of the flow rate below a certain fluctuation because the discharge time varies depending on the conditions.

One or more flow control pumps (not shown) are preferably installed in the flow tank 140, and the flow control pumps are controlled by a sensor (not shown) that detects the level of the waste water 110. It is desirable to.

In addition, it is preferable that an acid mechanism (not shown) is disposed in the flow tank 140 to prevent precipitation of the microorganism active water 120 and corruption of the waste water 110 and to stir.

On the other hand, the aeration tank 160 blows air into the waste water 110 and the microbial active water 120 introduced from the flow tank 140 (that is, when aerated) to the microbial active water 120 in the waste water 110 The various sludges used (aerobic microorganisms, 400) are multiplied to form cohesive flocs.

As described above, the aeration tank 160 converts the waste water (suspendable substances and soluble substances which are hard to settle in the 1100) into sludge 400 which is easy to settle using the action of the microorganism active water 120.

In order to purify the waste water 110, a plurality of aeration tanks 160 may be formed in succession and installed continuously.

The aeration tank 160 is provided with a diffuser 350 to blow air into the waste water (110).

Then, the air supply to the diffuser 350 is made by the operation of the air blower 340 connected through the air supply line.

The settling tank 180 is connected to the aeration tank 160, it is preferable to put the inclined triangle in the lower portion of the settling tank 180 in one place to facilitate the collection of the settled sludge 400.

On the other hand, in the settling tank 180 is finally separated into the supernatant and sludge 400, the supernatant is discharged to the outside via the discharge tank 320 to be described later.

In the discharge tank 320, the supernatant separated from the settling tank 180 is stored and discharged or recycled to a necessary place when a predetermined level or more is reached.

A discharge hole 322 is formed at one side of the discharge tank 320 to discharge the supernatant water, and may be recycled by being flowed into a storage tank for a toilet.

On the other hand, the sludge 400 precipitated in the settling tank 180 is transferred to the oil and water separation tank 100 through the recycle pipe (500).

That is, the oil-water separation tank 100 and the settling tank 180 are installed to be connected to each other by the recycle pipe 500, the sludge of the settling tank 180 by the conveying pump 550 provided on the recycle pipe (500) 400 is recycled while being forcibly returned to the oil and water separation tank (100).

In addition, the discharge tank 320 is a tank for disinfecting the supernatant introduced from the sedimentation tank 180 by chemicals such as chlorine to remove the E. coli in the discharged water and discharge it to a necessary place for recycling.

In addition, as shown in FIG. 3, in another embodiment of the present invention, the recycling pipe 500 is connected to an oil and water separation tank 100 and a flow tank 140 that is sequentially connected to the oil and water separation tank 100. The sludge 400 may be circulated simultaneously.

In this case, a conveying pump 550 is provided on the recycling pipe 500 to forcibly convey the sludge 400 to the oil / water separation tank 100 and the flow tank 140 to circulate the sludge 400 to discharge the wastewater 110. It will improve the purifying ability.

When the purification ability of the sludge 400 is weakened, the operator must administer a predetermined amount of the microorganism active water 120.

On the other hand, the waste water purification apparatus according to the present invention, even if the oil and water separation tank 100, the flow tank 140, the aeration tank 160, the sedimentation tank 180 and the discharge tank 320 in order to sequentially connect the structure or arrangement relationship Applicable

As described above, the wastewater purification device according to the present invention can completely sterilize and clean wastewater by circulating and recycling sludge of microbial active water based on fish, and reduce the amount of microbial active water used as recycling sludge. It can be effective.

In addition, the supernatant purified by the sludge has an effect that can be recycled to the bath washing water.

Claims (3)

In the wastewater purification apparatus for introducing wastewater into the oil-water separation tank and sterilizing and purifying by adding microorganism active water through the multi-step, and recycling or discharged the supernatant water separated through the sedimentation tank, A recycling pipe is formed in the settling tank, and the sludge of the microorganism active water settled in the settling tank is circulated and recycled. The method of claim 1, The recycling pipe is connected to the oil and water separation tank waste water purification apparatus, characterized in that for circulating the sludge by the drive of the conveying pump. The method according to claim 1 or 2, The recycling pipe is connected to the oil and water separation tank and the flow tank is installed in order to circulate the sludge by the drive of the conveying pump, characterized in that the waste water purification apparatus.