KR20130101757A - Wastewater treatment apparatus - Google Patents

Abstract

PURPOSE: A water treatment apparatus is provided to prevent ozone in mixed water from easy removing to the upper part, and to degrade the ozone to microbubbles since the mixed water containing ozone is rotated and the ozone is degraded by rotating a rotating body in which a bubble crush protrusion is protruded. CONSTITUTION: A water treatment apparatus comprises an influent reservoir, an ozone supplying part, an ozone mixer, an ozone bubble removing part, and a discharge reservoir. The ozone mixer receives influent and ozone and mixes the same, then discharges the mixed water. The ozone bubble removing part comprises a mixed water inlet (41), a rotating body (42), a bubble crush protrusion (43), a mixed water outlet (44), and a first ozone discharging hole. The rotating body rotates inside and the mixed water is rotated. The bubble crush protrusion, which is protruded from the surface of the rotating body to the outside, crushes ozone bubbles. The first ozone discharging hole discharges the ozone in which gas-liquid separation is occurred.

Description

Water treatment device {WASTEWATER TREATMENT APPARATUS}

 The present invention is provided with groundwater, river water, rainwater inflow water, building heavy water, etc. as the inflow water, and by inputting ozone and finely decomposing the ozone, finely decomposed ozone bubbles are sprayed evenly to remove contaminants contained in the inflow water. It relates to a water treatment apparatus that can be.

In recent years, it has been difficult to secure high quality agricultural water due to the serious contamination of groundwater due to the increase of domestic sewage emission and excessive use of chemical fertilizers and pesticides due to rapid urbanization.

In general, the water used in rural areas uses water such as groundwater, river water or reservoirs, but the wastewater discharged from livestock farms such as poultry farms, pig farms, and cow breeding farms adds significantly to environmental pollution. You have no choice but to use processing.

To purify water used in rural areas, ozone is usually mixed. However, since ozone mixed with water is mostly separated into gas and discharged again, the ozone purification effect is insignificant. It's not happening.

In addition, in urban areas, many storm reservoirs are installed in underground parking lots, sports grounds, parks, etc. to prevent flooding, but a number of storm reservoirs can be used as water resources. This is necessary.

The problem to be solved by the present invention is to provide groundwater, river water, rainwater inflow water, building heavy water, etc. as the inflow water, and to add ozone and finely decompose the ozone injected into the inflow water, finely decomposed ozone bubbles are sprayed evenly contained in the inflow water The present invention provides a water treatment apparatus capable of removing contaminants.

Another problem of the present invention is to decompose mixed ozone while rotating ground water, river water, rainwater inflow water, building heavy water, etc. while rotating the mixed water by rotating the rotating body protruding bubble crushing projections after the inflow of water and ozone mixed. This is to provide a water treatment apparatus that can be decomposed into fine bubbles while preventing ozone from easily moving upward in the mixed water.

The water treatment apparatus of the present invention includes an inflow water storage tank (10) for receiving and storing ground water, river water, rainwater inflow water, building heavy water, etc .; An ozone supply unit 20 for supplying ozone; An ozone mixer 30 which receives the inflow water stored in the inflow water storage tank 10 and ozone from the ozone supply unit 20 and mixes and discharges the mixed water; An inlet portion 41 formed at one side of the lower side to receive the mixed water discharged from the ozone mixer 30, a rotating body 42 rotating inside to rotate the mixed water, and an outer surface of the rotating body 42. And a bubble crushing protrusion 43 for crushing the ozone bubbles contained in the mixed water, the discharge part 44 formed on one side of the upper portion to discharge the mixed water therein, and a gas-liquid separated portion formed on the upper side of the bubble crushing protrusion 43. An ozone bubble removing unit 40 formed of a first ozone discharge hole 46 for discharging ozone to the outside; It is characterized in that it comprises a treated water storage unit 50 for receiving and storing the treated water treated by the ozone bubble removing unit 40 to discharge while removing the remaining ozone contained in the treated water.

Preferably, the ozone supply unit 20 is provided in the oxygen generator 21 for generating oxygen and the ozone generator 22 and the ozone generator 22 for receiving oxygen generated by the oxygen generator 21 and converting oxygen into ozone. Characterized in that the control unit 23 for adjusting the amount of ozone discharged.

Preferably, the ozone mixer 30 is characterized in that it is spaced a predetermined distance from the end of the reduction tube 31, the neck portion is gradually enlarged and provided with an expansion tube 33 for discharging a mixture of influent and ozone.

Preferably, the rotating body 42 of the ozone bubble removing unit 40 is characterized in that it is connected to the rotary motor 45 located in the upper or lower portion of the ozone bubble removing unit 40 to rotate.

Preferably, the bubble crushing projection 43 is characterized in that formed of a metal or synthetic resin material.

Preferably, the ozone bubble removing unit 40 measures the concentration of ozone, characterized in that the concentration measuring unit 55 is provided to provide the measured concentration value to the control unit 23.

Preferably, the treatment water storage unit 50 is a blocking portion 52, the lower end is opened and the upper end is covered while surrounding the inlet hole 51 is supplied to the treated water of the ozone bubble removing unit 40 on one side, the blocking unit ( Located on one side of the upper 52 and characterized in that the second ozone discharge hole 53 for discharging the ozone separated to the upper portion of the blocking portion 52 to the outside.

Preferably, the ozone treatment unit for receiving and processing ozone discharged to the outside through the first ozone discharge hole 46 of the ozone bubble removing unit 40 and the second ozone discharge hole 53 of the treated water storage unit 50 ( 60) further comprises.

The water treatment device according to the present invention is provided with groundwater, river water and the like used in agricultural water, rainwater inflow water used in the city, building heavy water, etc. as the inflow water, and ozone is finely decomposed in the inflow water by adding ozone and finely decomposing the ozone. Is evenly sprayed there is an advantage to remove the contaminants contained in the influent.

In addition, since the bubble breaking protrusion rotates the rotating body to rotate the mixed water mixed with ozone to decompose the mixed ozone, it is possible to decompose into fine bubbles while preventing the ozone from easily moving upward from the mixed water. have.

Thus, groundwater, river water, etc. from which noxious components have been removed may be used as livestock sterilizing water, animal drinking water, agricultural product washing water, sterilizing water, horticultural cultivation water, house crop sterilizing water and the like depending on the concentration of ozone.

1 is a block diagram of a water treatment apparatus according to an embodiment of the present invention.
Figure 2 is a detailed view of the ozone mixer according to the present invention.
Figure 3 is a detailed view of another ozone bubble removing unit of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the water treatment apparatus according to the present invention.

As shown in FIG. 1, the water treatment apparatus of the present invention includes an inflow water storage tank 10 for receiving ground water, river water, and the like, an ozone supply unit 20 for supplying ozone, and an inflow water stored in the inflow water storage tank 10. The ozone bubble remover 40 which is supplied to the lower side receiving the mixed water discharged from the ozone mixer 30 and the mixed water discharged from the ozone mixer 30 while removing the contaminants contained in the influent by mixing with the supplied ozone. And a treated water storage unit 50 which receives and stores the treated water treated by the ozone bubble removing unit 40 and removes the remaining ozone contained in the treated water.

Looking at the water treatment apparatus of the present invention in more detail, first, the inflow water storage tank 10 is first stored by receiving ground water, river water, etc. suspected of contamination. At this time, the solid matter contained in the inflow water is removed by sedimentation to the bottom, floating material can be removed by floating to the surface. Such influent may be provided for agricultural use such as livestock farming, animal drinking water, houses and the like.

The ozone supply unit 20 receives the oxygen generated by the oxygen generator 21 and the oxygen generator 21 to generate oxygen, and converts the oxygen into ozone to the ozone generator 22 and the ozone discharged from the ozone generator 22. It consists of a control unit 23 for adjusting the amount. At this time, the oxygen generator 21 preferably generates oxygen by electrolyzing water.

As shown in FIG. 2, the ozone mixer 30 is gradually reduced in diameter and connected to the reduction tube 31 for receiving the inflow of the inflow water storage tank 10 and the ozone supply unit 20 so that ozone is introduced. The ozone suction tube 32 of the, and a predetermined distance from the end of the reduction tube 31, the neck portion is gradually enlarged and consists of an expansion tube 33 for discharging a mixture of influent and ozone. The high pressure inflow water passing through the reduction tube 31 becomes very fast and is mixed while strongly sucking the ozone into the side ozone suction tube 32. Thereafter, the inflow water mixed with ozone decreases as it passes through the neck portion of the enlarged expansion tube 33 which is gradually enlarged, and is discharged while the inflow water and ozone are mixed with each other in a molecular state. At this time, the inflow water stored in the inflow water storage tank 10 is supplied to the reduction tube 31 at a high pressure through the pump 11 and the flow rate of the inflow water can be adjusted by the pump (11).

As shown in FIG. 3, the ozone bubble removing unit 40 receives and stores the mixed water of ozone discharged from the ozone mixer 30 underneath. The ozone bubble removing unit 40 is formed on one side of the lower side, and receives an inlet 41 and a mixture of ozone and inlet water discharged from the expansion tube 33 of the ozone mixer 30 and the inside of the ozone bubble removing unit 40. Rotating body 42 to rotate the rotating water in the rotating body, bubble breaking projections 43 to project outward from the surface of the rotating body 42 to crush the ozone bubbles contained in the mixed water, and is formed on one side A discharge unit 44 for discharging the mixed water therein to the outside is provided. Rotating body 42 is connected to the rotary motor 45 is located on the upper or lower portion of the ozone bubble removing unit 40 is rotated, the bubble crushing projection 43 is formed of a metal or synthetic resin to facilitate the decomposition of ozone bubbles It is preferable. In addition, a first ozone discharge hole 46 for discharging the gas-liquid separated ozone to the outside is formed at one upper side of the ozone bubble removing unit 40. The ozone bubble removing unit 40 may rotate ozone contained in the mixed water into smaller bubbles as the rotary body 42 and the bubble breaking protrusion 43 rotate, and mix the ozone bubbles to connect the ozone to the inflow water. It is possible to increase the amount of time that is present, so that various harmful substances contained in the influent can be treated by ozone.

The treated water storage unit 50 receives and stores the treated water treated by the ozone bubble removing unit 40 to remove residual ozone contained in the treated water. The treated water storage unit 50 is connected to the discharge unit 44 of the ozone bubble removing unit 40 and includes a blocking unit 52 which surrounds the inlet hole 51 through which the treated water is supplied and opens at the lower end thereof and covers the upper end thereof. It is preferable. A second ozone discharge hole 53 is formed at one upper portion of the blocking portion 52 to discharge ozone separated from the bubbles into ozone contained in the treated water supplied to the blocking portion 52 to the outside. The treated water storage unit 50 may be separated while the residual ozone contained in the treated water rises while moving to be discharged to the lower opening when the treated water treated in the ozone bubble removing unit 40 first enters the blocking unit 52. have.

In addition, the ozone bubble removing unit 40 is provided with a concentration measuring unit 55 for measuring the concentration of ozone outside the blocking unit 52. The concentration measuring unit 55 provides the measured concentration value to the control unit 23. Accordingly, the control unit 23 reduces the amount of ozone supplied to the ozone mixer 30 when the ozone concentration of the treated water discharged from the ozone bubble removing unit 40 is higher than the standard, and if the ozone concentration is lower than the standard, the ozone mixer By increasing the amount of ozone supplied to the furnace, the amount of ozone contained in the finally discharged treated water can be kept constant.

On the other hand, ozone discharged to the outside through the first ozone discharge hole 46 of the ozone bubble removing unit 40 and the second ozone discharge hole 53 of the treated water storage unit 50 is an ozone treatment unit such as activated carbon and a filter ( 60) Emitted to the atmosphere in a removed state.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be easy to understand. It is also to be understood that the technical spirit of the invention is also deemed to belong to the scope of the appended claims if the practice of such improvements, alterations, substitutions or additions falls within the scope of the appended claims.

Claims (8)

An inflow water storage tank 10 for receiving and storing inflow water;
An ozone supply unit 20 for supplying ozone,
An ozone mixer 30 which receives the inflow water stored in the inflow water storage tank 10 and ozone from the ozone supply unit 20 and mixes and discharges the mixed water;
An inlet portion 41 formed at one side of the lower side to receive the mixed water discharged from the ozone mixer 30, a rotating body 42 rotating inside to rotate the mixed water, and an outer surface of the rotating body 42. And a bubble crushing protrusion 43 for crushing the ozone bubbles contained in the mixed water, the discharge part 44 formed on one side of the upper portion and discharging the mixed water therein to the outside, and a gas-liquid separated portion formed on the upper side. An ozone bubble removing unit 40 formed of a first ozone discharge hole 46 for discharging ozone to the outside;
And a treated water storage unit (50) for receiving and storing the treated water treated by the ozone bubble removing unit (40) to discharge and remove residual ozone contained in the treated water. The ozone supply unit 20 is an oxygen generator 21 for generating oxygen and an ozone generator 22 and an ozone generator 22 for receiving oxygen generated from the oxygen generator 21 and converting oxygen into ozone. Water treatment device, characterized in that consisting of a control unit 23 for adjusting the amount of ozone discharged from. The method of claim 1, wherein the ozone mixer 30 is spaced apart a predetermined distance from the end of the reduction tube 31, the neck is gradually enlarged, characterized in that it comprises an expansion tube 33 for discharging a mixture of influent and ozone Water treatment device. The water treatment apparatus according to claim 1, wherein the rotating body (42) of the ozone bubble removing unit (40) is connected to a rotating motor (45) located above or below the ozone bubble removing unit (40). The water treatment apparatus according to claim 1, wherein the bubble crushing projections (43) are formed of metal or synthetic resin. The water treatment apparatus according to claim 1, wherein the ozone bubble removing unit (40) measures the concentration of ozone and provides a concentration measuring unit (55) for providing the measured concentration value to the control unit (23). The method of claim 1, wherein the treatment water storage unit 50 is closed with a blocking portion 52, the lower end of which is opened and the upper end is closed while surrounding the inlet hole 51 to which the treated water of the ozone bubble removing unit 40 is supplied to one side of the upper end. Located in the upper side of the upper portion 52, the water treatment apparatus, characterized in that the second ozone discharge hole (53) for discharging the ozone separated to the upper portion of the blocking portion 52 to the outside. 8. The ozone of claim 7, wherein ozone discharged to the outside is received and treated through the first ozone discharge hole 46 of the ozone bubble removing unit 40 and the second ozone discharge hole 53 of the treated water storage unit 50. Water treatment apparatus further comprises a treatment unit (60).

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