KR19990022186U - System for processing wastewater - Google Patents

Abstract

The present invention is to pressurize the storage tank 10, the reactor 14 for mixing the chemicals in the waste water of the storage tank 10, and the waste water supplied from the reactor 14, the discharge pipe 30 and the discharge pipe (40) Pressurized flotation tank (24) having a built-in), a dispersion pump (46) for recycling heavy sludge from the discharge pipe (40) to the reactor (14), and lightweight sludge floating in the pressurized flotation tank (24). It includes a sludge removal apparatus 48 for discharging the wastewater, and provides a wastewater treatment apparatus having improved filtration efficiency and a simple configuration.

A cylindrical chamber 26 is installed in the center lower portion of the pressurization tank 24 of the wastewater treatment device, and communicates with the supply pipe 22 inside the chamber 26 and moves upward to change the speed of the incoming wastewater. Discharge pipes 28 which converge to increase the diameter are provided. In addition, the connection pipe 32 is connected to the discharge pipe 30 and the connection pipe 32 is discharge pipe 34 for adjusting the level of the pressure flotation tank and the amount of treated water discharged and the thickness of the sludge layer above the pressure flotation tank 34. ) Is imperatively movable up and down. In addition, the dispersion pump 46 includes a plurality of impellers 46a for finely crushing and mixing the heavy sludge and air supplied from the air supply line 44.

Description

Wastewater Treatment System {SYSTEM FOR PROCESSING WASTEWATER}

The present invention relates to a wastewater treatment apparatus, and more particularly, it is possible to effectively separate the sludge by crushing the sludge of the weight into fine sludge containing air, and also the flow rate of the wastewater in the pressure flotation tank, the head of the wastewater The present invention relates to a wastewater treatment apparatus that can easily adjust the thickness of the sludge layer and the discharge of treated water.

In general, various kinds of wastewater are discharged from various industries, hospitals, restaurants, research institutes and the like. Since discharge of such waste water to the outside without purification not only causes environmentally harmful effects such as water pollution, but also has a fatal effect on the human body, it must be purified before discharged to sewage or cloth. There is a trend that the same wastewater treatment is strictly regulated by law. In addition, in order to protect water resources, various attempts have been made to treat such low-grade wastewater and use it as heavy or reused water. Thus, in order to treat various wastewater, the wastewater treatment apparatus is installed in the said place. Such wastewater treatment apparatuses include, for example, devices that use a variety of methods alone or in combination, such as screen, settling, filtering, and floatation. Among such wastewater treatment apparatuses, a conventional wastewater treatment apparatus closest to the wastewater treatment apparatus according to the present invention is disclosed in US Pat. No. 5,080,802.

According to this US patent, waste water containing waste collected in a reservoir or sump is supplied through a supply pipe by a supply pump 1, and after air is applied in the gas injection assembly 2, a liquid called a vortex mixing plate. The gas and liquid are mixed in the gas static mixer 3 and then fed to the separation tank 4. The chamber 5 is provided inside the separation tank 4 to communicate with the mixer 3 and to actually receive the waste water, and the adsorption riser pack 6 is provided inside the chamber 5. Filter contaminants or wastes in the wastewater which are fed upwards through (5). The liquid thus purified is collected in the separation tank 4 outside the chamber 5 through the upper opening of the chamber 5 and supplied to the upright pipe housing 7 communicating with the bottom of the separation tank. It is discharged to the outside through an upright pipe 7a installed in the housing or supplied to a predetermined position for reuse.

Meanwhile, bubbles or bubbles generated during the filtration of waste water in the chamber 5 are collected in the bubble discharge passage 8 formed in the upper circumference of the separation tank 4 and then through a discharge valve 8a communicating with the passage. Circulated or discharged to the gas injection assembly 2. Of course, the foam supplied to the gas injection assembly 2 is again added to the waste water passing through the assembly together with the air additionally supplied by the gas injection assembly 2, which waste water is static in the mixer 3. After the final mixing, it is supplied to the chamber 5 in the separation tank 4 so that adsorption and filtration as described above are performed continuously.

However, the adsorption and suspension separation type wastewater treatment apparatus of the US patent has been shown to have the following problems. That is, the waste water mixed with air is supplied to the cylindrical chamber of uniform diameter to separate and filter the sludge, foreign matter or waste in the adsorber riser pack, so that the riser pack is clogged by the sludge, which significantly reduces the filtration rate and increases the power. In this case, when the filtration rate is lowered, the riser pack needs to be cleaned or replaced, and thus, the cost is increased, and thus, the riser pack is built in the chamber during such cleaning and replacement.

In addition, the whole upright pipe for adjusting the water level or head of the wastewater in the separation tank is built up in the upright pipe housing, which makes it difficult and difficult to control its height.

In addition, there is a problem that undesirably the foreign matter that passed through the riser pack is contained in the bubble or bubble is recycled by clogging the exhaust pipe or the valve causing a malfunction.

The present invention has been made to solve the above-described problems, the object of the present invention is to provide a wastewater treatment apparatus is simple installation structure, low cost, improved filtration efficiency.

Another object of the present invention is to provide a wastewater treatment apparatus that can easily and simply control the level of the water level or head in the pressure flotation tank and the thickness of the injured sludge layer and can control the discharge of treated water.

Another object of the present invention is to provide a wastewater treatment apparatus that can finely crush sludge of the weight precipitated in the lower part of the pressure flotation tank to improve the filtration efficiency of the wastewater.

1 is a partial side cross-sectional view schematically showing the configuration of a separation tank and a peripheral device of a conventional wastewater treatment apparatus.

Figure 2 is a schematic view showing a wastewater treatment apparatus according to the present invention.

Figure 3 is an enlarged side cross-sectional view showing in detail the configuration of the pressure injured tank and its peripheral device of the wastewater treatment apparatus according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: storage tank 12: delivery line

14 reactor 22 feed pipe

24: pressure floating tank 28: discharge tube

30: discharge pipe 32: connector

34: discharge pipe 36: discharge port

38: adjusting nut 40: discharge tube

42: discharge line 44: air supply line

46: dispersion pump 48: sludge removal apparatus

50: inclined plate 52: outlet

54: sludge collection tank 56: pump

These objects are to store the waste water to be treated, the reactor in which the waste water of the storage tank is supplied by the delivery pump to mix the medicament, and the waste water supplied from the reactor by the supply pipe to pressurize and raise the treated water. Dispersion pump for recycling the heavy sludge discharged through the discharge line connected to the discharge pipe and the air supply line connected to the discharge tube and the discharge flotation for the discharge pipe and the discharge pipe for discharging the heavy sludge into the reactor And a sludge removal device for discharging the light sludge which floats to the upper portion of the pressurized flotation tank, wherein the cylindrical chamber is installed at the center lower portion of the pressurization tank and the supply pipe is formed inside the chamber. To communicate with (22) and to change the rate of wastewater entering therefrom. The discharge pipe that converge so as to increase the diameter toward the upper side is provided; A connecting pipe is communicatively connected to the discharge pipe, and a discharge pipe for adjusting the level of the pressurized flotation tank and the amount of treated water discharged is installed in the connecting pipe so as to be movable up and down; The dispersion pump may be achieved by a wastewater treatment apparatus comprising a plurality of impellers for crushing heavy sludge and pulverizing and mixing the air supplied from the air supply line to the pulverized sludge.

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

2 is a schematic view showing a wastewater treatment apparatus according to the present invention, Figure 3 is a side cross-sectional view showing in detail the configuration of the pressure relief and the peripheral device of the wastewater treatment apparatus according to the present invention It is.

First, referring to FIG. 2, a wastewater treatment apparatus according to the present invention basically includes a storage tank 10 in which wastewater is collected and stored, and the storage tank 10 has a discharge pipe 12 having a discharge pump 12a installed therein. ) Is connected. The discharge pipe 12 is provided with a reactor 14 for collecting wastewater supplied therefrom, and the reactor 14 is provided with chemicals containing various chemical functions and components in the wastewater supplied therein. A plurality of reservoirs 16, 18 and 20 for mixing are provided in communication. In addition, the reactor 14 is connected to the pressure flotation tank 24 through the supply pipe 22, and the actual filtration of wastewater is performed. On the other hand, the reactor 14 is preferably made of a special transparent reinforced plastic in order to easily check the mixed state of the wastewater and the drug in the reactor as well as to maintain its strength.

Referring to Fig. 3, the pressure flotation tank 24 is formed in a cylindrical shape, for example, and a cylindrical chamber 26 having a predetermined diameter is provided at the lower part of the inner side thereof. Moreover, inside the chamber, a discharge pipe 28 actually communicating with the supply pipe 22 is embedded. In particular, the discharge tube 28 is formed so that its diameter converges upwardly. That is, the discharge pipe 28 has a first diameter d1 having a lower portion communicating with the supply pipe 22 and a second diameter d2 larger than the first diameter d1. It is formed into an inverted cone truncated.

The reason why the discharge tube 28 is formed in the reverse conical head shape is to adjust the flow rate of the wastewater flowing into the discharge tube through the supply tube as will be described later in detail. That is, the wastewater pressurized and supplied to the discharge pipe has a small diameter at the lower part of the discharge pipe 28, so that the speed is faster, but the speed becomes gentle toward the top, so that the sludge of relatively light weight is upward. It will float and prevent the relatively heavy weight of sludge from rising upward.

In addition, a discharge pipe 30 for discharging the filtered water to the outside is installed at the inner lower portion of the pressurized floatation tank 24, and a connection pipe 34 is connected to the discharge pipe 30. Here, it is preferable that the discharge pipe 30 has its opening 30a facing downward so that only purely treated water can be discharged, and the height of the opening is lower than the upper opening 26a of the chamber 26. In addition, the connecting pipe 32 communicating with the discharge pipe 30 is formed in an upright shape, and the discharge pipe 34 is installed therein so as to be movable upward and downward in order to adjust the head in the pressure flotation tank.

Of course, the upper part of the discharge pipe 34, the discharge port 36 for actually discharging the treated water to the outside or to supply the treated water to another reuse line is formed integrally branched. And, the discharge pipe 34 is preferably formed of a special transparent reinforced plastic so as to check the state of the treated water discharged through the discharge pipe or discharge port 36.

In particular, an externally adjustable adjustment nut on the upper part of the connection pipe 32 to adjust the height of the discharge pipe 34 up and down with respect to the connection pipe 32 or to easily fix the discharge pipe 34. (38) is provided. Of course, it will be apparent that the diameter of the connection pipe 32 is set larger than the diameter of the discharge pipe 34 for a smooth movement of the discharge pipe relative to the connection pipe.

On the other hand, in the lower portion of the pressure flotation tank 24, more specifically, the position facing the discharge pipe 30, the relatively heavy sludge out of the sludge discharged through the discharge pipe 28 and the chamber 26 is pressurized A discharge tube 40 for discharging to the outside of the floating tank 24 is installed, and the discharge line 42 communicates with the discharge tube. The discharge tube 40 is formed at the upper portion of the inlet (40a) formed in the shape of an umbrella or mushroom, the height of the inlet (40a) is lower than the opening (26a) of the chamber 26 of the discharge pipe (30) It is preferable to set higher than the opening 30a, which is understood to discharge the sludge of weight coming out of the chamber 26 to the outside through the inlet 40a before being discharged to the discharge pipe 30.

An air supply line 44 is connected to the discharge line 42 connected to the discharge tube 40 to apply air to the sludge of the weight discharged through the discharge line 42. In particular, at the end of the discharge line 42, a dispersion pump 46, such as a compression pump, is provided for the fine pulverization mixing of the sludge and air to crush the sludge supplied from the discharge line 42. The dispersion pump 46 preferably includes a plurality of impellers 46a whose number is set in accordance with the treatment capacity of the wastewater treatment device so as to finely grind or crush the sludge. Of course, this dispersion pump 46 is connected to the above-described reactor 14 so that fine, air-mixed sludge pulverized therefrom is circulated back to the reactor 14.

On the other hand, as shown in Figure 2, the upper portion of the pressure flotation tank 24 is provided with a sludge removal device 48, also called a skimmer (skimmer). The sludge removal device 48 is connected to the air supply line 44, and the light weight sludge floating in the upper portion of the pressure flotation tank 24 is automatically reciprocated from side to side by the air pressure supplied therefrom. Push out to the inclined plate (50). As such, the sludge pushed to the inclined plate 50 is supplied to the sludge treatment device 54 through the outlet 52 and finally treated, and the water generated in the separation is stored through the line 58 by the pump 56. The circulation is returned to the tank (10).

Hereinafter, the operation and its effect of the wastewater treatment apparatus according to the present invention configured as described above will be described in detail.

Wastewater collected or stored in the storage tank 10 is supplied to the reactor 14 through the delivery pipe by the delivery pump 12a. At this time, the wastewater supplied to the reactor 14 may be supplied with chemicals or chemical components from each of the chemical reservoirs 16, 18, and 20 as needed, and may be chemically treated, and also through the air supply line 44. The sludge contained in the waste water due to the inflow of air may contain air. In this way, the wastewater supplied to the reactor 14 is supplied to the pressure flotation tank 24 through the supply pipe 22.

In particular, the wastewater supplied to the pressure flotation tank 24 through the supply pipe 22 is actually discharged through the discharge pipe 28 in the chamber 26, whereby the discharge pipe 28 is formed in a reverse conical cutting type. The flow rate of the wastewater is fast at the bottom of the discharge pipe but is gentle at the top of the discharge pipe, so that light sludge floats to the top of the pressurized flotation tank 24 while relatively heavy sludge falls out of the chamber 26. do.

The sludge of the weight falling in this way is discharged through the discharge pipe 40 by the suction force of the pressure distribution pump 46, and continuously passes through the discharge line 42, wherein the air connected to the discharge line 42 The air supplied from the feed line 46 is mixed into the sludge of that weight. As such, the heavy sludge mixed with air flows into the dispersion pump 46 and is pulverized or crushed by a plurality of impellers 46a of the dispersion pump to finely grind the sludge. Of course, the finely pulverized sludge is circulated to the reactor 14 in the state of containing or mixed with air, which is again supplied to the pressure relief tank through the supply pipe 22 and the discharge pipe 28 to provide air as described above. The fine or lightweight sludge, which is included, floats to the upper portion of the pressure flotation tank 24 and the heavy sludge is discharged to the distribution pump 46 through the discharge pipe 40 again and the above-described operation is repeated.

On the other hand, the waste water in which the chemical reaction occurred is introduced into the pressure flotation tank 24, and the light sludge rises to the top, and the sludge of the weight is filtered in such a manner that the treated water collected in the pressure flotation tank 24 is discharged to the discharge pipe ( 30 is discharged to the connecting pipe 32, and finally discharged to the outside through the discharge port 36 of the discharge pipe 34 in the connection pipe or to another line for reuse. Here, by adjusting the height of the discharge pipe 34, it is possible to adjust the level of the water level or head in the pressure flotation tank 24, as well as the thickness of the injured sludge layer, as well as the amount of treated water discharged. Adjustment and fixing of the discharge pipe can be easily performed from the outside by the operator release or tighten the adjustment nut 38.

Of course, the light weight sludge which floats to the upper part of the pressure flotation tank 24 is pushed to the inclined plate 50 by the sludge removal device 48 operated by the pneumatic pressure supplied through the air supply line 44 to discharge the outlet 52. Is discharged into the sludge collecting tank 54, for example, the sludge is compressed and finally processed into a sludge cake-like form, and the moisture generated is stored by the pump 56 through the line 58 through the storage tank 10. Return to cycle. In addition, the amount of sludge discharged and its concentration can be adjusted by adjusting the height of the discharge pipe 34 as described above.

On the other hand, the heights of the upper openings 26a of the chambers 26, the inlet ports 40a of the discharge pipes 40 and the openings 30a of the discharge pipes 30, which are installed in the pressure flotation tank 24, are sequentially lowered. Since the heavy sludge is discharged to the inlet port 40a of the discharge pipe 40 before reaching the opening 30a of the discharge pipe 30, only purely treated water actually discharges the discharge pipe 30 and the discharge pipe ( It is discharged through 34).

As a result, according to the wastewater treatment apparatus according to the present invention, by containing air in the sludge contained in the wastewater and treated in a pressurized flotation method, the light weight sludge is floated to the upper and discharged, and the sludge of the weight is finely ground and air By including and recirculating, the sludge is not discharged to the outside together with the treated water, and wastewater can be treated simply and easily without the need for a separate riser pack as in the prior art, thereby improving the filtration performance. It works.

In addition, it is easy to disassemble and assemble the whole wastewater treatment device, as well as easy to simply and simply adjust the thickness of the sludge layer during the wastewater treatment, depending on the level or head of the pressurized floating tank, as well as the pollution concentration of the original wastewater. Workability is improved.

While the invention has been shown and described with reference to the preferred embodiments, those skilled in the art will understand that various changes and modifications can be made without departing from the spirit and scope of the invention as defined by the claims. .

Claims (4)

A storage tank 10 in which waste water to be treated is stored, a reactor 14 in which waste water from the storage tank 10 is supplied by a delivery pump 12a, and chemicals are mixed, and a reactor 14 is supplied by a supply pipe 22. And a pressurized floatation tank 24 having a discharge tube 30 for discharge of filtered water and a discharge tube 40 for discharging heavy sludge, and the discharge tube 40. And a dispersing pump 46 for recycling the heavy sludge discharged through the discharge line 42 connected to the air supply line 44 to the reactor 14, and the upper portion of the pressure flotation tank 24. In the wastewater treatment apparatus comprising a sludge removal apparatus 48 for discharging the light sludge to rise to the A cylindrical chamber 26 is installed in the center lower portion of the pressurizing tank 24, and communicates with the supply pipe 22 inside the chamber 26 and upwards to change the speed of the wastewater flowing therefrom. A discharge tube 28 that converges to increase in diameter; The connection pipe 32 is connected to the discharge pipe 30 in communication with the discharge pipe 34, the discharge pipe 34 for adjusting the level of the pressurized flotation tank 24 and the amount of discharged water is up and down Movably imparted; The dispersion pump (46) is characterized in that it comprises a plurality of impellers (46a) for finely crushing and mixing together the heavy sludge and the air supplied from the air supply line (44). The upper portion of the chamber 26 is formed with an upper opening 26a for discharging wastewater discharged from the discharge tube, and an umbrella inlet port 40a at the upper portion of the discharge tube 40. Is formed, the discharge pipe 30 is wastewater treatment apparatus, characterized in that the opening (30a) is opened downwardly. The method of claim 2, wherein the height is set in order of the upper opening (26a) of the chamber 26, the inlet port (40a) of the discharge pipe 40 and the opening (30a) of the discharge pipe (30). Wastewater treatment device. The upper part of the connecting pipe 32 is equipped with a control nut 38 for releasably fixing the discharge pipe 34, the reactor 14 and the discharge pipe 34 is a special It is formed of a transparent reinforced plastic, the waste water treatment apparatus, characterized in that the discharge port 36 is formed on the upper portion of the discharge pipe (34).