KR200212274Y1 - Apparatus for purifying waste water - Google Patents

Abstract

The present invention relates to a waste water purification device to facilitate the neutralization of the wastewater by spraying the chemical with air to the wastewater and to differentiate the height of the tank so that the wastewater is transported naturally. Multiple perforated plates are installed at regular intervals, the first aeration device is installed at the lower part of it, and the overflow tank is integrally installed at the upper part of the outer cylinder where the drain valve is installed at the lower part, and the central part of the overflow tank is installed. A first tank penetrating through the inner central portion of the outer cylinder and the other side protruding from the top surface of the overflow tank; Second and third, fourth and fifth tanks having the same structure and having a smaller height than the first tank in one side of the first tank; A wastewater supply pump for supplying wastewater to the inside of the outer cylinder at a lower end of the first tank; A chemical transport pipe connected with a chemical supply pipe installed into the inner cylinder of each tank; An air transport pipe connected to an air supply pipe into the inner cylinder of each tank; First and second forced transfer pumps connected to the chemical transfer pipe and the air transfer pipe to transfer the chemicals and the air; A connection supply pipe formed by integrating two supply pipes into one to discharge the chemical supply pipe and the air supply pipe in a mixed state inside the inner cylinder; One end is connected to the overflow tank and the other end is characterized by consisting of a waste water transfer pipe bent to be entered into the inner cylinder of the adjacent tank.

Description

Apparatus for purifying waste water

The present invention relates to a wastewater purification apparatus, and more particularly, to neutralize the wastewater by injecting chemicals into the wastewater by air, and to a wastewater purification apparatus in which the transfer of wastewater is naturally transported by differentiating the height of the tank. will be.

In general, nutrients are inorganic elements necessary for the growth and growth of microorganisms causing organic decomposition, among them nitrogen compounds and phosphates, which are elements that must be continuously supplied for biological cell formation and life energy acquisition.

However, when nutrients such as nitrogen and phosphorus increase in waters such as rivers, coastal seas and lakes, eutrophication occurs.

The eutrophication activates the production of nutrients as nutrients, thereby changing the natural ecosystem, causing red tide in the seas, and algae, etc., in the lakes cause abnormal growth.

This process proceeds smoothly in nature, but when large amounts of domestic sewage, livestock wastewater, and plant drainage flow in, nutrients increase excessively, and suspending substances are mixed in a large amount, exceeding the natural self-purifying ability.

As a result, eutrophication is rapidly progressing and, if severe, odors are caused by decay and water pollution is promoted.

Therefore, these nutrients in the wastewater should be removed before entering the lake or river, and many studies have been made to efficiently remove them.

In Korea, most sewage treatment and livestock wastewater treatment methods rely on activated sludge method, and most suspended solids and organic matter can be removed by treatment with activated sludge. Treatment is only 20-40%.

In view of the above problems, the present inventors have previously registered and registered the wastewater purifying apparatus (Utility Model Registration No. 97157), and the structure thereof has a primary wastewater inflow tank at the top and a chemical tank is installed at the side thereof, and wastewater inflow. Under the tank, the wastewater distribution pipe in a horizontal state is installed in a zigzag state, and the wastewater is distributed by a rotating body which is a conveying means.

However, the problem of the pre-registration design having such a structure is that the wastewater introduced into the wastewater tank is purified at room temperature, that is, the wastewater temperature is about 10 ° C. It will not be made and the neutralization reaction will be delayed, and the structure of the wastewater distribution pipe is installed in a horizontal state, so natural sediment is not made and sediment is accumulated inside the wastewater distribution pipe.

In addition, the stirring device built into the wastewater distribution pipe has a function of delaying the distribution of wastewater due to the up and down alternate blades installed on the mandrel, but there is a problem that it does not stir evenly the wastewater and chemicals, and it is difficult to structurally clean the inside of the distribution pipe. There is a problem.

And there is a problem that can not check the purification status of the waste water during the purification degree, so that excessive chemicals are injected.

In order to solve the above problems, a heating device capable of automatic temperature control is installed inside the wastewater storage tank to maintain the wastewater temperature in an optimal state, and the wastewater distribution pipe is inclined downward to allow the wastewater to be transported by natural pressure. The flexible bellows connection elbow is used at the corner connection of the distribution pipe to facilitate easy separation and disassembly of the distribution pipe, and the wastewater mixing means installed inside the distribution pipe has a rotatable filter plate on the mandrel. Utility Model Registration No. 157980 has been proposed to allow even mixing.

However, the conventional wastewater purification apparatus is installed in a horizontal state, so the installation area is excessive, the structure is complicated, and the wastewater is designed to be impossible to flow naturally. There was a problem that affects, and also when the partial cleaning, there is a cumbersome to remove the waste water in the upper distribution pipe installed above the position of the cleaning pipe.

The present invention was devised in view of the above-mentioned problems, and its purpose is to provide a simple structure, small installation area, and automatically adjust the dosage of the drug to prevent overdose of the drug, thereby reducing the consumption of the drug and reducing the amount of precipitates. In addition, to improve the treatment efficiency and to easily remove the sediment generated in the tank, and to provide a waste water purification device that does not affect the operation of the device even if the operation of the cleaning site during the partial cleaning.

1 is a cross-sectional view showing a structure of the present invention.

Figure 2a is a cross-sectional view showing the structure of the main tank of the present invention

Figure 3 is a partially cutaway perspective view showing the installation state of the multi-porous plate.

4 is an enlarged cross-sectional view of portion A of FIG. 2 showing a mixed injection of chemicals and air;

5 is a cross-sectional view showing an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

2: 1st tank 3: 2nd tank

4: 3rd tank 5: 4th tank

6: 5th tank 7: 1st transfer pump

8: 2nd transfer pump 20: outer cylinder

20a: inner cylinder 21: space part

22: first aeration device 23: draw-in valve

24: overflow tank 25: multi-hole plate

25a: through hole 26: second aeration device

70: drug delivery pipe 71: drug supply pipe

80: air feed pipe 81: air supply pipe

The purpose of the present invention is a plurality of perforated plate is installed at a predetermined interval in the inner space portion, the first aeration device is installed at the bottom of it, the overflow tank is integrated at the upper end of the outer cylinder is installed a drain valve for discharging sediment at the bottom A first tank installed through the central portion of the overflow tank and installed up to the inner central portion of the outer cylinder, and the other side protruding from the top surface of the overflow tank; Second and third, fourth and fifth tanks having the same structure and having a smaller height than the first tank in one side of the first tank; A wastewater supply pump for forcibly supplying wastewater into the outer cylinder at a lower end of the first tank; A chemical transport pipe connected with a chemical supply pipe installed into the inner cylinder of each tank; An air transport pipe connected to an air supply pipe into the inner cylinder of each tank; First and second forced transfer pumps connected to the drug transport pipe and the air transport pipe to force the drug and air to be transported; A connection supply pipe formed by integrating two supply pipes into one to discharge the chemical supply pipe and the air supply pipe in a mixed state inside the inner cylinder; One end is connected to the overflow tank and the other end is achieved by the waste water purification device, characterized in that consisting of waste water transfer pipe bent to be entered into the inner cylinder of the adjacent tank.

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

1 is a cross-sectional view showing the structure of the present invention, according to the structure of the waste water purification device 1 of the present invention is a plurality of perforated plate 25 is installed in the inner space 21 at regular intervals and to the lower end thereof The first aeration device 22 is installed, the upper end of the outer cylinder body 20 is provided with a drain valve 23 for discharging the sediment, the overflow tank 24 is integrally formed.

The first tank (2) consisting of the inner cylinder 20a installed through the central portion of the overflow tank 24 to the inner central portion of the outer cylinder 20, the other side is protruded than the top surface of the overflow tank 24 2, 3, 4, 5 tanks (3, 4, 5, 6), which have the same structure in one or both directions, whose height gradually decreases toward the outside of the first tank (2). Arranged in the form is installed.

On the other hand, the structure of the multi-porous plate 25 is fixed to the inner surface of the outer cylinder 20, as shown in Figure 3, the structure is a structure in which a plurality of through holes 25a perforated on a concentric circle, in a vertical direction Many are installed at regular intervals.

On the other hand, a wastewater supply pump 10 for supplying wastewater into the outer cylinder 20 is installed at the lower end of the first tank (2), the inside of each tank (2, 3, 4, 5, 6) As the cylinder 20a, the air supply pipe 81 and the medicine, which may be called branch pipes of the chemical transport pipe 70 and the air transport pipe 80, connected to the first and second transfer pumps 7, 8 for transporting the medicine and air, The supply pipe 71 is installed.

The chemical supply pipe 71 and the air supply pipe 81 is formed by integrating two supply pipes 71 and 81 into one to discharge in a mixed state inside the inner cylinder 20a as shown in FIG. It mixes in the supply pipe 11, and injects into the cylinder and flows in.

On the other hand, one end is connected to the overflow tank 24 installed in the upper portion of each tank, the other end is a structure consisting of a waste water transfer pipe 90 formed to be inserted into the inner cylinder (20a) of the adjacent tank Detecting means 100 for detecting the filtration concentration of the distilled and purified wastewater in each tank are provided at predetermined portions of the wastewater conveying pipe 90 for conveying the wastewater.

A second aeration device 26 is installed inside the overflow water tank 24 of each tank, and as shown in FIG. 5, an upper portion of each tank 2, 3, 4, 5, 6. The gas purifier 200 for purifying the gas contained in the waste water may be installed and used.

Referring to the operation and effect of the present invention made of such a structure, if the wastewater is first introduced into the inner space 21 of the first tank 2 through the wastewater supply pump 10, the wastewater in the outer cylinder 20 It is filled.

The wastewater supplied into the outer cylinder 20 by the wastewater supply pump 10 is divided into molecules by the through holes 25a of the multi-porous plate 25 installed inside the outer cylinder 20.

On the other hand, the first and second forced transfer pump (7,8) is operated at about the same time as the waste water supply pump 10 to supply and transport the medicine and air to the chemical transport pipe 70 and the air transport pipe (80) chemical transport pipe ( 70 is connected to the air transfer pipe 80 and supplies the medicine and air to the inside of the outer cylinder 20 through the air supply pipe 81 and the chemical supply pipe 71 placed in the inner cylinder (20a).

At this time, the chemical supply pipe 71 and the air supply pipe 81 is injected by mixing the drug and air from the inside thereof by the connection supply pipe 11 formed integrally with the two supply pipe, the injection to the end of the connection supply pipe 11 A nozzle (not shown) is installed to ensure that the waste water and chemicals are evenly diluted during the spray.

The chemicals supplied into the outer cylinder 20 are easily dissolved in the wastewater by the first aeration device 22 and are secondarily by the multi-porous plate 25 installed above the first aeration device 22. Melting operation takes place.

This will be described in more detail, and the waste water is allowed to be evenly diluted in the waste water by air bubbles formed while the air is supplied from the first aeration device 22, and the waste water penetrating through the through hole 25a of the multi-porous plate 25 is a molecule. Is finely squeezed, so that the wastewater and the chemicals stand evenly in the second phase so that the chemicals are easily dissolved in the wastewater.

On the other hand, the precipitate (sludge) generated during the purification process is precipitated in the lower portion of the outer cylinder 20, the precipitate is discharged to the outside by the draw-in valve 23 at the bottom.

On the other hand, the pressure is generated inside the limited outer cylinder 20 by the waste water supplied by the waste water supply pump 10, the waste water diluted and purified to some extent according to the chemical supply is the upper portion of the outer cylinder 20 Is discharged to the outside by the inner cylinder 20a in the closed state.

The stagnant wastewater discharged by the inner cylinder 20a is freshwater in the overblower water tank 24, and the wastewater dewatered in the overblower water tank 24 is third-sized by the second aeration device 26 installed inside. Dissolving works to dissolve chemicals that are not soluble in the waste water.

The purified wastewater in which the chemical is dissolved is transferred to the adjacent second tank 3 having a small height along the wastewater conveying pipe 11, and is purified by the detection means 100 installed at a predetermined portion of the wastewater conveying pipe 11. The filtration concentration of the wastewater collected is detected.

When the wastewater is moved into the second tank 3 through the wastewater transport pipe 11, the concentration of the wastewater is filled in the outer cylinder constituting the second tank 3 and purified first in the first tank 2. The dose of the medicine is automatically determined by the detection signal, and the medicine and the air are supplied to the inside of the outer cylinder 20 through the air supply pipe 71 and the medicine supply tube 81 placed in the inner cylinder 20a.

The chemicals supplied into the outer cylinder 20 are easily dissolved in the waste water by the first aeration device 26 in the second tank 3, and are installed in an upward direction of the first aeration device 26. By the multi-porous plate 25 is melted secondly.

The purified wastewater discharged by the inner cylinder 20a having the same function and structure as the inner cylinder 20a of the first tank 2 is immersed in the overblower tank 24 and the wastewater desalted in the overblower tank 24. The third melting operation is performed by the second aeration device 26 installed inside to dissolve the chemicals that are not dissolved in the waste water again.

The waste water purified by dissolving the medicine is transferred to the adjacent third tank 4 having a smaller height along the waste water conveying pipe 90, and the waste water conveyed to the third tank 4 is also the first and second tanks 2. The same operation as the filtration operation of (3) is repeated, and then the fourth tank 5 and the fifth tank 6 are transferred again.

As the filtration concentration of the wastewater transferred to each of the tanks increases, the dose of chemicals determined by the detection means 100 installed in the wastewater transport pipe 90 decreases from the first tank 2 toward the outward tank. It can be seen.

On the other hand, the sediment (sludge) generated during the purification process is settled in the lower portion of the outer cylinder 20, the removal of this precipitate is easily removed by using a drain valve 23 provided at the bottom, when cleaning the inside of the tank When cleaning the second tank 3, if the waste water transfer pipe 90 connected to the overflow tank 24 of the first tank 2 is extended to the third tank 4, the cleaning can be performed without interruption of the device. Done.

In order to maximize the amount of purification of the waste water, the second, third, fourth, fifth tanks (3, 4, 5, 6) may be installed in the radiation direction around the first tank (2). Therefore, the installation in the form of a straight line is a preferable method for minimizing the installation area.

On the other hand, when the installation place of the present invention is not provided, it may be possible to maximize the space utilization by installing between the wall and the wall of the building or between the fence and the adjacent fence.

On the other hand, as shown in Figure 4 attached to the upper portion of each tank gas purification device for purifying the gas contained in the waste water to clean the discharged gas to prevent the air pollution can be prevented You can also make it comfortable.

The present invention having such a structure allows the mixture of wastewater and chemicals for diluting it to be mixed by high pressure air while the water molecules and chemical molecules are finely divided by the multi-dwelling plate to facilitate neutralization of the wastewater. When the initial use of water is assumed to be 100, the amount of waste that is discarded can be used as industrial water after purification, except for consumable water, so that water consumption can be reduced and water pollution can be prevented. Simple and small installation area, waste water can be flowed naturally, and the sediment generated in the lower part of the inside can be easily removed and the operation of the device is stopped even if the cleaning part is stopped without stopping the operation of the device. There is no effect.

Claims (5)

In the inner space part, a number of porous plates are installed at regular intervals, and at the lower part thereof, a first aeration device is installed, and at the lower part, an overflow tank is installed at the upper end of the outer cylinder in which a drain valve for discharging sediment is installed. A first tank penetrating through the central portion of the tank to the inner central portion of the outer cylinder and the other side protruding from the top surface of the overflow tank; Second and third, fourth and fifth tanks having the same structure and having a smaller height than the first tank in one side of the first tank; A wastewater supply pump for supplying wastewater to the inside of the outer cylinder at a lower end of the first tank; A chemical transport pipe connected with a chemical supply pipe installed into the inner cylinder of each tank; An air transport pipe connected to an air supply pipe into the inner cylinder of each tank; First and second forced transfer pumps connected to the chemical transfer pipe and the air transfer pipe to transfer the chemicals and the air; A connection supply pipe formed by integrating two supply pipes into one to discharge the chemical supply pipe and the air supply pipe in a mixed state inside the inner cylinder; One end is connected to the overflow tank and the other end is a waste water purification device, characterized in that consisting of a waste water transfer pipe bent to be entered into the inner cylinder of the adjacent tank. 2. The wastewater purification apparatus according to claim 1, wherein detection means for detecting the filtration concentration of the wastewater diluted and purified in each tank is provided at a predetermined portion of the wastewater transfer pipe for transferring the wastewater. The wastewater purification apparatus according to claim 1, wherein a second aeration device is provided inside the overflow tank of each tank. The wastewater purification apparatus according to any one of claims 1 to 2, wherein a gas purification apparatus for purifying the gas contained in the wastewater is provided at an upper portion of each tank. According to any one of claims 1 to 2, wherein the size of the second, 3, 4, 5 tanks installed on one side or both sides with respect to the first tank gradually becomes smaller toward the outside toward the center of the first tank Waste water purification apparatus characterized in that arranged in a staircase form.