KR101334950B1 - Sewage and wastewater treatment apparatus - Google Patents

Abstract

The present invention relates to a sewage and waste water treatment apparatus using pressure floatation, capable of a stable floatation of floating materials and precipitation of sludge by supplying minute foam. The apparatus is provided to facilitate the sewage and waste water treatment by controlling the discharging level of the processed sewage and waste water through the stable floatation of floating materials and precipitation of sludge, in particular, the apparatus comprises: a separation tank introducing and discharging the sewage and waste water; supplying means spraying the minute foam into the separation tank; removal means collecting the floating materials in the top part of the separation tank; a discharge means discharging the sludge in the lower part of the separation tank; multiple inclined plates stabilizing the flow of the sewage and waste water by being installed inside of the separation tank; and an elevating wall controlling the discharging level of the processed sewage and waste water by being installed in housing between an outlet and the removal means in the top part of the separation tank.

Description

Wastewater treatment apparatus using pressurized flotation

The present invention relates to a wastewater treatment apparatus using a pressurized flotation to stably settle the sludge and float the suspended matter while the microbubble is supplied.

In general, wastewater treatment apparatus using pressurized flotation supplies microbubbles into the separation tank to float floating matters together with microbubbles and then removes them. The wastewater can be stored while the wastewater flows in and the treated wastewater is discharged. Separation tank formed with an outlet; Supply means for injecting fine bubbles into the separation tank in close proximity to the inlet; Removal means installed on the separation tank and recovering the floating float; And discharge means installed at the bottom of the separation tank to discharge the sludge settled.

Therefore, when the microbubble is supplied into the separation tank by using the supply means, the microbubble is attached to the flocculated flotation while floating and is removed through the removal means when the float floats on the surface, while the specific gravity of the flocculated flotation The sludge that sinks to the bottom of the separation tank is discharged by means of a discharge means.

However, in the conventional wastewater treatment system using a pressurized flotation, a rapid flow rate is generated in the wastewater in the process of supplying microbubbles into the separation tank, so that not only the suspended solids but the sludge having a greater proportion than the wastewater are not stable and float in the wastewater. have.

In addition, since the removal means is installed to remove the float floating on the water depending on the flow generated from the water, there is a problem that the removal of the float is not easy.

The present invention is to provide a wastewater treatment apparatus using a pressurized flotation to control the discharge level of the treated wastewater while the sedimentation of the sludge and the flotation of the float is stable in the separation tank supplied with micro-bubbles.

The present invention is to provide a waste water treatment apparatus using a pressurized flotation to make the supply of fine bubbles to the separation tank more smoothly.

The present invention provides a separation tank formed with an inlet through which wastewater is introduced and an outlet for discharging the treated wastewater while allowing wastewater to be stored; Supply means for injecting fine bubbles into the separation tank in close proximity to the inlet; Removal means installed on the separation tank and recovering the floating float; And a discharge means for discharging the sludge settled under the separation tank; in the wastewater treatment apparatus using the pressure injury, which is installed inside the separation tank, the waste water is introduced through the inlet and through the supply means. A plurality of inclined plates arranged at regular intervals at an inclined angle to stabilize the wastewater flow due to the supplied microbubbles; And installed between the removal means and the discharge port and the inside of the housing in a state in which the housing is formed to discharge the treated wastewater of the lower part of the separation tank through the lower side and discharged through the discharge port on the other side, through the height adjustment And a lifting wall formed to adjust the discharge level of the treated wastewater.

The inclined plate is formed to bend in a shape in which the valley and the acid are continuously repeated from side to side.

The lifting wall is a first wall fixedly installed on the bottom bottom of the housing; A second wall formed to move up and down in close contact with one side of the first wall; And adjusting means connected to the second wall to adjust the lifting height.

The first wall is protruded to one side is formed with a bolt to which the nut is fastened, the second wall is formed with a long hole so as to lift in the state fitted to the bolt.

The adjusting means is a nut block is installed on the upper side of the first wall; A bracket installed on an upper portion of the housing; And a shaft bolt axially coupled through the bracket and fastened to the nut block.

The handle is coupled to the upper end of the shaft bolt protruding from the upper bracket.

The supply means is a pump for sucking and pumping the waste water inside the separation tank; An air compressor for supplying air to wastewater flowing into the pump; A mixer for mixing the waste water and air pumped by the pump in a pipe to form a micro bubble; And a chamber for dispersing the microbubbles formed in the mixer together with the waste water into the separation tank.

The mixer includes a cylindrical case coupled to correspond to the pipe to which the waste water is transported; And a shaft having a plurality of wings formed on an outer surface thereof while being axially installed at the center of the case.

The case of the mixer has an inner diameter narrower than that of the pipe to increase the flow rate of waste water flowing therein.

The blades of the mixer are recessed in the front to resist the flow of waste water.

The removal means is a conveyor installed on top of the separation tank; A scraper installed on the conveyor at regular intervals to scrape off the float while rotating along the rotation of the conveyor; And a guide panel for discharging the floated matter by the scraper to the outside of the separation tank.

According to the wastewater treatment apparatus using the pressurized flotation according to the present invention, it is possible to adjust the discharge level of the treated wastewater while allowing the sludge to settle and float the suspended matter stably in the separation tank to which the microbubbles are supplied. There is an effect made more smoothly.

According to the wastewater treatment apparatus using the pressurized flotation according to the present invention, the microbubbles are more smoothly supplied into the separation tank, so that the wastewater is more smoothly treated.

1 is a front configuration diagram showing a wastewater treatment apparatus using a pressurized float to which the present invention is applied.
Figure 2 is a plan view showing a wastewater treatment apparatus using a pressurized float to which the present invention is applied.
Figure 3 and Figure 4 is a side configuration diagram showing a wastewater treatment apparatus using a pressurized float applied to the present invention.
Figure 5 is a perspective view showing a main portion of the wastewater treatment apparatus using a pressurized float to which the present invention is applied.
Figure 6 is a perspective view showing another main portion of the wastewater treatment apparatus using a pressurized float to which the present invention is applied.
7 and 8 is a side configuration diagram showing another main portion of the wastewater treatment apparatus using a pressurized float to which the present invention is applied.
Figure 9 is a front view showing another main portion of the wastewater treatment apparatus using a pressurized float to which the present invention is applied.
Figure 10 is a side view showing another main portion of the wastewater treatment apparatus using a pressurized float to which the present invention is applied.
11 is an explanatory view showing another main part of a wastewater treatment apparatus using a pressurized float to which the present invention is applied.
12 is a cross-sectional view showing another embodiment of a wastewater treatment apparatus using a pressurized float to which the present invention is applied.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Wastewater treatment apparatus using a pressurized flotation of the present invention is a separation tank 100, the inlet and discharge of wastewater as shown in Figures 1 to 12, supply means for injecting microbubbles into the separation tank, Removal means 300 for recovering the suspended matter in the upper part of the separation tank, discharge means 400 for discharging the sludge in the lower part of the separation tank, a plurality of inclined plates 500 installed inside the separation tank to stabilize the waste water flow and the It is composed of a lifting wall 600 which is installed in the housing between the removal means and the outlet of the upper part of the separation tank to control the discharge level of the treated waste water.

The separation tank 100 is formed so that the waste water can be stored while the inlet 110 is introduced into the waste water and the discharge port 120 for discharging the treated waste water. At this time, the inlet 110 is formed in the middle of the separation tank 100, as shown in Figure 1 to 4, the outlet 120 is to be formed on the upper side of the separation tank (100). In addition, the lower portion of the separation tank 100 is inclined surfaces are formed on both sides in the form of a hopper so that sludge having a specific gravity greater than waste water is collected at the bottom center. In addition, on both sides of the separation tank 100 while separating between the removal means 300 and the outlet 120 to be described later through the lower side of the treated wastewater flows into the bottom of the separation tank 100 and the outlet 120 of the other side The housing 130 to be discharged through is formed. At this time, the treated waste water of the separation tank 100 may be introduced to one side of the housing 130 through a pipe as shown in, for example, 3 and 4.

The supply means 200 is for injecting microbubbles into the separation tank 100 in close proximity to the inlet 110. As shown in FIG. 9 to FIG. 11, the supply means 200 includes a pump 210 for suctioning and pumping waste water in the separation tank 100 and a waste water introduced into the pump 210. The air compressor 220 for supplying air, the mixer 230 for mixing the waste water and the air pumped by the pump 210 in a pipe to form a micro bubble and the micro bubbles formed in the mixer 230 and the waste water It is configured to include a chamber 240 for dispersing together into the separation tank (100).

The mixer 230 is a cylindrical case 231 coupled to the pipe to which the waste water is transported, and a shaft 232 having a number of wings 232a formed on an outer surface thereof while being axially installed at the center of the case 231. It is composed. At this time, the case 231 is formed to be coupled and separated on the path of the pipe by using the front and rear flanges.

In addition, in another embodiment of the present invention, as shown in FIG. 12, the case of the mixer 230 is formed to have an inner diameter narrower than that of the pipe to increase the flow rate of the wastewater flowing therein.

On the other hand, the blade of the mixer 230 is formed concave from the front to resist the flow of waste water.

The removal means 300 is installed on the separation tank 100 to recover the floating float. Such a removing means 300 is a conveyor 310 installed on the separation tank 100, the conveyor 310 is installed at a predetermined interval as shown in Figure 1 and 3 as an embodiment It comprises a scraper 320 for scraping the float while rotating along the rotation of the 310 and the guide panel 330 for discharging the floated by the scraper 320 to the outside of the separation tank (100). . Therefore, when the conveyor 310 is operated, when the scraper 320 moves, the suspended matter remaining on the surface of the waste water is removed, and the suspended float moves on the guide panel 330 and ends at the end of the guide panel 330. Is recovered from the bottom to the bottom.

The discharge means 400 is to discharge the sludge is settled below the separation tank 100, for example, consisting of a screw that rotates at a low speed by a motor and a reducer as shown in Figures 1 to 4 Can be.

The inclined plate 500 is installed inside the separation tank 100, and the waste water flows through the inlet 110 and stabilizes the flow of waste water due to the microbubbles supplied through the supply means 200. It is composed of a plurality of arranged at regular intervals at an inclination angle. The inclined plate 500 is preferably installed in the interior of the separation tank 100, as shown in Figs.

On the other hand, such an inclined plate 500 may be formed to be bent in the form of a continuous repeat of the valley and the acid to the left and right as shown in FIG. Since the flow is very weak or there is no sludge or float moving between the two inclined plate 500 is trapped in the groove portion and sinks to the bottom of the separation tank (100).

As mentioned above, the lifting wall 600 is installed inside the housing 500 and is formed to adjust the discharge level of the treated wastewater through height adjustment.

As shown in FIG. 6 to FIG. 8, the elevating wall 600 is provided on a side of the first wall 610 and one side of the first wall 610 fixedly installed on a lower bottom of the inside of the housing 130. The second wall 620 and the second wall 620 is formed to be in close contact with the second wall 620 is composed of a control means for adjusting the lifting height (630). Therefore, the water level in the separation tank 100 is adjusted as the second wall 620 is elevated using the adjustment means 630. In this case, upper ends of the first and second walls 610 and 620 may be bent as shown in FIGS. 7 and 8.

As an example, the lifting wall 600 protrudes to one side of the first wall 610 and a bolt 611 to which a nut is fastened is formed, and the second wall 620 is fitted to the bolt 611. The long hole 621 is formed to rise and fall in. In this case, by tightening the nut in the state in which the long hole 621 is inserted into the bolt 611, the first and second walls 610 and 620 may be kept in close contact with each other without opening.

The adjusting means 630 may be a nut block 631 installed on an upper portion of the first wall 610, a bracket 632 installed on an upper portion of the housing 130, and the bracket 632. A shaft bolt 633 is coupled to the shaft and is coupled to the nut block 631. In addition, a handle 634 may be coupled to an upper end of the shaft bolt 633 protruding upward from the bracket 632 for easy manipulation.

According to the present invention having the configuration as described above through the configuration of the partition wall 500 and the lifting wall 600 of the waste water treated while allowing the sedimentation of the sludge and the flotation of the float is made stable in the separation tank supplied with microbubbles. By allowing the discharge level to be adjusted, the treatment of waste water is made smoother and easier.

In addition, the fine bubbles are more smoothly supplied into the separation tank 100 through the mixer 230, so that the waste water is more smoothly treated.

100: separation tank 110: inlet
120: outlet 130: housing
200: supply means 210: pump
220: air compressor 230: mixer
231 case 232 shaft
232a: wing 240: chamber
300: removal means 310: conveyor
320: scraper 330: guide panel
400: discharge means
500: inclined plate
600: lifting wall 610: first wall
611: bolt 620: second wall
630: adjustment means 631: nut block
632: bracket 633: shaft bolt
634 handle

Claims (11)

delete delete Separation tank (100) formed with an inlet (110) through which wastewater is introduced and a discharge port (120) for discharging the treated wastewater while allowing the wastewater to be stored; Supply means 200 for injecting microbubbles into the separation tank 100 in close proximity to the inlet 110; A removal means (300) installed above the separation tank (100) to recover the floating floats; In the waste water treatment apparatus using a pressurized flotation comprising a discharge means 400 for discharging the sludge installed and installed below the separation tank 100,
Installed inside the separation tank 100, spaced at a predetermined interval at any inclination angle to stabilize the inflow of wastewater through the inlet 110 and the flow of wastewater by the microbubble supplied through the supply means 200. A plurality of inclined plates 500 arranged; And
While separating the removal means 300 and the discharge port 120 is a housing 130 through which the treated wastewater of the lower part of the separation tank 100 is introduced through the lower side and discharged through the discharge 120 outlet on the other side It is installed in the housing 130 in the formed state, the lifting wall 600 formed to adjust the discharge level of the treated waste water through height adjustment; includes;
The lifting wall 600,
A first wall 610 fixedly installed at a lower bottom of the housing 130;
A second wall 620 formed to move up and down in close contact with one side of the first wall 610; And
The waste water treatment apparatus using the pressure injury, characterized in that consisting of; adjusting means (630) connected to the second wall (620) to adjust the lifting height. The method according to claim 3, wherein the first wall 610 is protruding toward one side is formed with a bolt 611 is fastened to the nut, the second wall 620 is a long hole to be elevated in the state fitted to the bolt (611) ( 621) the wastewater treatment apparatus using the pressure injury, characterized in that formed. The method of claim 3, wherein the adjusting means 630,
A nut block 631 installed on an upper portion of one side of the first wall 610;
A bracket 632 installed on an upper portion of the housing 130; And
Shaft water is axially coupled through the bracket (632), the shaft bolt 633 is fastened to the nut block (631); waste water treatment apparatus using a pressurized injury characterized in that it comprises a. The wastewater treatment apparatus according to claim 5, wherein a handle (634) is coupled to an upper end of the shaft bolt (633) protruding upward from the bracket (632). delete delete delete delete delete

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