KR101446303B1 - Dissolved airfloatation system for treatment wastewater - Google Patents

Abstract

The present invention relates to a pressure flotation tank for treatment of wastewater and, more specifically, to a pressure flotation tank for treatment of wastewater which increases a flotation removal efficiency of floated foreign substances having different size and properties among floated foreign substances, and naturally discharges sludge precipitated on the bottom of the pressure flotation tank. The pressure flotation tank of the present invention for solving the same problem comprises a body (100) purifying by mutually separating sludge and floated foreign substances included in wastewater by using buoyancy of fine bubbles while inducing precipitation; a scrape device (200) filtering floated foreign substances floated by buoyancy of the fine bubbles; a discharging means (300) installed on one side or both sides to the outside of the body (100), receiving purified water of the wastewater by multiple drain outer pipes (310) connected from the lower part of the body (100) and discharging the supplied purified water to the next stage; and a discharge hopper (400) installed on the lower end of the body (100) and naturally discharge the sludge precipitated on the lowest part of a floating space (140) to the outside.

Description

{DISSOLVED AIRFLOWATION SYSTEM FOR TREATMENT WASTEWATER}

The present invention relates to a pressurized float tank for wastewater treatment, and more particularly, to a float type float tank for waste water treatment, and more particularly, And a sludge settled on the bottom of the tank.

Korean Patent Registration No. 10-0797197 (Registered Date: Jan. 16, 2008) ", which was filed by the applicant of the present invention, discloses a conventional technology for the background of the present invention, And a discharge port for discharging the treated water to the next stage, and has a predetermined floating space for separating sludge and floating foreign matter contained in the wastewater and discharges microbubbles generated by air injection into the wastewater flowing into the vicinity of the inflow port And a sludge settled at the lowermost portion is discharged to the outside by a screw system. In the pressurized floating tank for treating wastewater,

And an inclined diaphragm in which a plurality of plate members having an arbitrary angle of inclination are arranged side by side on the internal space of the pressurized float tank so that flow of the wastewater through the inflow port of the wastewater and the air injection pressure by the air- And the front surface of the inclined diaphragm is formed in a corrugated shape so as to have a safety area remote from the water flow generating the water flow, and is fixed on the upper part of the pressurized floating tank, And a scraping device for scraping off the scraper.

In this way, in the prior art, the total water level of the pressurized float tank is determined according to the level of the purified water that escapes through the discharge port in the pressurized floating tank with free fall, so that the total water level of the pressurized float tank corresponds to the height of the discharge port. It is necessary to adjust the total water level of the pressurized flotation tank in accordance with the size and characteristics of the floating flotage floating in accordance with the present invention to increase the removal rate of the floating foreign matter through the scrape apparatus.

Therefore, conventionally, when the height of the discharge port for discharging the purified water to the outside is set in the designing process of the pressurized floating tank, the height of the discharge port can not be changed after the pressurized floating tank is manufactured. Since the user can not arbitrarily adjust the entire water level of the pressurized floating tank, there is a problem that the removal efficiency for floating matters having various sizes and characteristics is remarkably deteriorated.

In the past, if the height of the discharge port of the pressurized float tank needs to be changed, the entire structure of the pressurized float tank may be changed, or the structure of the discharge port may be partially changed. There is another problem that it is very troublesome to adjust the entire water level to the pressurized floating tank.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for purifying purified water through a drain manifold, The water level that overflows to the discharge port side after being supplied into the merging housing is changed by using the plate type water level adjusting means so that the entire water level of the pressurized floating type tank is freely adjusted in response to the floating foreign matter having various sizes and characteristics, The removal efficiency of the floating foreign matter filtered through the apparatus is remarkably improved.

Another object of the present invention is to make the height of the lifting plate automatically variable according to the driving of the motor, so that the entire float level adjustment work of the pressurized floating tank can be performed very easily.

According to an aspect of the present invention, The wastewater is introduced into the floating space by using the inflow port of the pipe type, and the sludge and the floating foreign matter contained in the wastewater are separated and cleaned by the buoyancy of the minute bubbles and are closely arranged in the floating space A main body for inducing a sedimentation action using a plurality of inclined diaphragms; A scraper device installed on the upper side of the main body to filter suspended particulate matter floated by buoyancy of minute bubbles; A drain means installed at one side or both sides of the main body to discharge the purified water supplied from the wastewater through a plurality of drain outlets connected from the lower portion of the main body to the next stage by using a merging housing; And a discharge hopper installed at a lower end of the main body and spontaneously discharging the sludge settled at the lowermost part of the floating space to the outside,
The drain means includes a plurality of drain outlets connected at one end to the outer lower portion of the main body and connected at the other end to the lower end of the merging housing to supply the purified water; The drain external appearance is connected in a state where the drain external appearance is installed on one side or both sides of the main body from the outside, and all of the purified water supplied by the drain exterior is joined, and then the purified water is discharged to the next stage Wherein the drain member further comprises a filter member for preventing sludge and other foreign matter remaining in the purified water from flowing into the outer surface of the drain, wherein the filter member is in the form of a metal net And a lower portion of the drain outer tube is inserted between a portion of the outer case of the drain and a portion of the drain outer tube which is coupled to an outer side of the body, Further comprising a tubular water level adjusting means for arbitrarily adjusting the total water level of the main body Wherein the tubular water level adjusting means is formed in a state in which the tubular water level adjusting means is positioned higher than the entire water level of the main body, a through hole through which purified water is discharged inside is formed in correspondence with an outer diameter of the drain outer tube, A plurality of elevating members each of which is inserted and moved up and down; And a plurality of through holes corresponding to the number and the outer diameter of the elevating member are formed on the inner side of the plurality of elevating members so that the entirety of the elevating members sandwiched inside the through holes are simultaneously moved A plate-shaped lifting and lowering member; The driving unit is coupled to the upper side of the merging housing in a state where the driving unit is screwed to the inside of the plate-like elevating member using a driving shaft, and the plate-like elevating member is automatically moved up and down And a motor for transferring the wastewater discharged from the pressurized floatation tank.

According to the present invention, since the plate level regulating means is installed in the pressurized float tank, the total float level of the pressurized floating tank is freely adjusted corresponding to the floating foreign matter having various sizes and characteristics, so that the removal efficiency of the floating foreign matter filtered through the scraper device There is a remarkably improved effect.

Further, since the height of the lifting plate is automatically variable according to the driving of the motor, there is another effect that the entire float level adjustment work of the pressurized floating tank is performed very easily.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view and a partly enlarged view of a pressurized floating bed for wastewater treatment according to an embodiment of the present invention; FIG.
Fig. 2 is a front view and a main part enlarged view of a pressurized floating tank for wastewater treatment according to an embodiment of the present invention; Fig.
FIG. 3 is a schematic view showing a plate type water level adjusting means in a pressurized floatation tank for wastewater treatment according to an embodiment of the present invention. FIG.
4 is a view showing a pressurized floating-type tank for treating wastewater according to another embodiment;
Figs. 5 to 6 are views showing a pressurized floating-type tank for treating wastewater according to still another embodiment; Fig.

The features of the pressurized floating tank for wastewater treatment according to the present invention will be understood by the following detailed embodiments with reference to the accompanying drawings.

In the following description of the exemplary embodiments of the present invention, a detailed description of components that are widely known and used in the art to which the present invention belongs is omitted, and unnecessary explanations thereof are omitted. It is to communicate the point more clearly.

FIGS. 1 to 3 are views for explaining a pressurized floating tank for wastewater treatment according to an embodiment of the present invention.

Accordingly, after the wastewater is introduced into the floatation port 140 using the inflow port 110 in the form of a pipe, the sludge and floating contaminants contained in the wastewater are separated into fine bubbles A main body 100 for separating and purifying water by using a buoyant force of the main body 100 and inducing a sedimentation action by using a plurality of inclined diaphragms 120 arranged in a tilted state in the floating space 140; A scraper device 200 installed on the main body 100 to filter out floating foreign matter caused by buoyancy of minute bubbles; The purified water from the wastewater is supplied by a plurality of drain outlets 310 connected to the outside of the main body 100 from one side or both sides of the main body 100, A discharging means 300 for discharging to the next stage by using the discharging means 300; And a discharge hopper (400) installed at a lower end of the main body (100) and discharging the sludge settled at the lowermost part of the floating space (140) to the outside. And a discharge hopper 400 for discharging the sludge to the outside.

At this time, the discharging means 300 is installed inside the confluent aggregate 320, and controls the water level of the purified water supplied from the drain external pipe 310 to arbitrarily control the entire water level of the main body 100 The water level adjusting means 330 or the tubular water level adjusting means 340 are selectively provided.

Hereinafter, the constitution of each part of the present invention will be described in detail.

First, the main body 100 introduces wastewater into the floating space 140 through the inlet port 110 in the form of a pipe, separates and sludges contained in the wastewater and the floating foreign matter using buoyant force of the minute bubbles. And at the same time induce a sedimentation action by using a plurality of inclined diaphragms 120 which are closely arranged in an inclined state in the floating space 140.

The main body 100 is manufactured in the form of a rectangular metal enclosure having a floating space 140 inside and a plurality of inclined partition plates 120 are arranged side by side at an arbitrary inclination angle in the floating space 140 Since the structure of the body 100 and the structure in which the inclined diaphragm 120 is coupled are widely used in the prior art, a detailed description of the structure will be omitted.

At this time, the inclined diaphragm 120 is prevented from activating the convection on the wastewater in the main body 100 by the inflow flow of the wastewater through the inlet port 110 and the injection pressure of the minute bubbles by the air generation induction device (not shown) So that the precipitation efficiency is enhanced. The inclined diaphragm 120 is formed in a wave shape to maximize the sedimentation efficiency.

The main body 100 further includes a float outlet 130 connected to the other end of the inlet port 110 for discharging floating foreign matter to the outside when the foreign object is filtered.

In this case, it is preferable that the float discharge port 130 is formed to be separated from the floating space 140 of the main body 100 while being downwardly passed through the main body 100, So that the wastewater is prevented from flowing out to the outside through the discharge port 130.

The scraper device 200 is disposed on the upper side of the main body 100 to filter out suspended particulate matter that floats due to buoyancy of minute bubbles.

The scraping device 200 has the same structure as that used in the prior art. The scraping device 200 includes a driving device 210 having a driving sprocket 220, And a chain 240 connected to the drive sprocket 220 and the driven sprocket 230 so as to be wound in an endless track.

A plurality of scrapers 250 are disposed on the chain 240 at regular intervals and the scrapers 250 are transported in the same locus as the chain 240 is driven, When the floating foreign matter is filtered out, it is pushed to the discharge port 130 of the main body 100 to discharge it naturally.

The drainage means 300 is installed at one side or both sides of the main body 100 and the purified water of the wastewater is supplied by a plurality of drain outlets 310 connected from a lower portion of the main body 100 And to discharge the supplied purified water to the next stage by using the merging housing 320.

The discharging means 300 may be installed on one side or both sides of the main body 100 according to the user's selection. In the figure, the discharging means 300 is installed on both sides of the main body 100 The structure of the discharging means 300 has been described.

The discharge means 300 includes a plurality of drain outlets 310 connected to the lower outer side of the main body 100 and connected to the lower ends of the merging housing 320 to supply purified water, .

At this time, the drain outer pipe 310 is formed in the shape of a circular pipe of metal, and the lower portion of the drain pipe 310 is bent into an L shape, And the upper end of the drain outer pipe 310 is fixed by welding in a state of passing through the lower surface of the merging housing 320.

Further, it is preferable to perform a waterproof treatment to prevent leakage of water at the joint between the drain outer pipe 310 and the merging housing 320.

The drain outer pipe 310 further includes a filter member 360 for preventing sludge and other foreign matter remaining in the purified water from flowing into the drain outer pipe 310.

The filter member 360 is formed in the form of a metal net and the drain outer pipe 310 is inserted between the portions of the drain pipe 310 coupled to the outer side of the main body 100, 100, respectively.

Therefore, according to the structure of the filter member 360, the sludge settling at the lowermost part of the floating space 140 of the main body 100 is prevented from flowing into the drain outer pipe 310 side.

The drain means 310 is connected to the drain means 300 in a longitudinal direction on one side or both sides of the main body 100 and the purified water supplied by the drain side 310 And a merging housing 320 for discharging the purified water to the next stage using the discharge port 321 provided at one side.

At this time, the merging housing 320 has a space for accommodating the purified water therein in the form of a square housing corresponding to the length of the main body 100, and a discharge port for discharging the purified water to the lower end of the merging housing 320 A port 321 is formed, and the discharge port 321 is a portion to which piping for discharging the purified water to the next stage is connected.

The discharge means 300 may be installed inside the confluent aggregate 320 and may control the entire water level of the main body 100 by adjusting the water level of the purified water supplied from the drain external pipe 310 The water level adjusting means 330 or the tubular water level adjusting means 340 are selectively provided.

At this time, in the present invention, the plate-like level adjusting means 330 is applied to the discharging means 300 as a basis.

Meanwhile, the plate-like water level adjusting means 330 is fixedly coupled in the form of a fence around a position where a plurality of drain outer pipes 310 are coupled in the merging housing 320 to form a confluence space 336 inside And a blocking plate 331 for partitioning the space in which the drain outer pipe 310 and the discharge port 321 are coupled to each other.

At this time, the blocking plate 331 has a 'A' shape, one side corresponds to the height of the merging housing 320, and the other side corresponds to the installation of the lift plate 332 The shield plate 331 is fixed to the merging housing 320 by welding around the plurality of drain outlets 310. The shielding plate 331 is formed to be bent at a height lower than the height of the merging housing 320.

The plate-like water level adjusting means 330 is positioned above the entire water level of the main body 100 and moves up and down in a state of being coupled to the side surface of the blocking plate 331, And a lifting plate 332 for varying the height of the side wall and flowing the purified water to the discharge port 321 through a through hole 332a formed in the inner side.

At this time, the lifting plate 332 is formed in a plate shape corresponding to the side length of the blocking plate 331, a through hole 332a for discharging the purified water is formed in the upper side of the lifting plate 332, 332 are joined to each other by welding by a fastening member 334 for the spiral engagement of a lift bolt 333 to be described later.

The through hole 332a further includes an auxiliary filter 332b which is detachably attached to the through hole 332a to ultimately filter the floating foreign matter of the purified water.

At this time, the auxiliary filter 332b is formed in the form of a metal mesh to correspond to the size of the through hole 332a.

In addition, the plate-like water level adjusting means 330 is installed on the upper side of the merging housing 320 in a state where the plate-like water level adjusting means 330 is screwed to the side face of the rising steel plate 332, And a lifting bolt 333 that moves the steel plate 332 upward and downward to arbitrarily adjust a water level overflowing from the confluence space 336 to the discharge port 321 side through the through hole 332a.

At this time, the lifting bolt 333 is formed in a general bolt shape, and the upper side is coupled to the upper end of the merging housing 320 by a separate bracket (not shown) The lifting bolts 333 are screwed to the fastening members 334 of the fastening bolts 332 to rotate the lifting bolts 333 in place.

Therefore, in the present invention, the discharge port 321 for discharging the purified water to the outside is installed separately on one side or both sides of the main body 100 by using the merging housing 320, The water level of the purified water flowing into the merging body 320 and then flowing over to the discharge port 321 is changed by using the plate level adjusting means 330. Accordingly, Since the entire water level of the floating tank 1 is freely adjusted, the efficiency of removing the floating foreign matters filtered through the scraper 200 is remarkably improved.

The discharge hopper 400 is installed at the lower end of the main body 100 to naturally discharge the sludge settled at the lowermost part of the floating space 140 to the outside.

At this time, the discharge hopper 400 is formed as a downward inclined housing and a sludge port 410 is formed at an end of the inclined portion to discharge the sludge to the outside.

The discharge hopper 400 may be a transfer device such as a screw feeder for forcibly discharging the sludge to the outside through the sludge port 410.

4 is a view showing a pressurized floating-type tank for treating wastewater according to another embodiment.

4 shows another embodiment of the pressurized floating tank 1 according to the present invention. The plate-like water level adjusting means 330 of the pressurized floating tank 1 having the above- The driving part 352 is connected to the upper end of the lifting bolt 333 using the driving shaft 351 so that the driving shaft 352 is driven by the driving force of the driving part 352, 351 for automatically rotating the lifting plate 332 up and down.

At this time, the motor 350 has a structure of an electric motor, and is fixedly installed on the upper side of the merging housing 320 by using a separate bracket (not shown).

Accordingly, the height of the lifting plate 332 is automatically lifted or lowered according to the driving of the motor 350, so that the level adjustment of the pressurized floating lifting tank can be easily performed.

5 to 6 are views showing a pressurized float tank for treating wastewater according to another embodiment.

5 shows another embodiment of the discharging means 300 in the pressurized floating type tank 1 of the present invention. The discharging means 300 is installed inside the confluent bundle 320 The water level adjusting means 330 or the tubular water level adjusting means 340 for arbitrarily adjusting the entire water level of the main body 100 by an action of adjusting the water level of the purified water supplied from the drain external appearance 310, And optionally one.

The tubular water level adjusting means 340 has a through hole 341a which is positioned higher than the entire water level of the main body 100 and discharges purified water therein. The through hole 341a is connected to the drain external pipe 310, A plurality of lifting members 341 corresponding to the outer diameters of the drain outer pipes 310 and moving up and down in a state of being fitted to the upper ends of the plurality of drain outer pipes 310;

A fixing piece 342 fastened to the elevating member 341 by bolts or welding to support the elevating member 341;

The elevating bolt (341) is coupled to the upper portion of the merging housing (320) with the upper end thereof being screwed on the upper side of the fixing piece (342) 343).

6 shows another embodiment of the tubular water level regulating means 340. The tubular water level regulating means 340 has the plurality of elevating members 341 inserted therein, A plurality of through holes 341a corresponding to the number of members 341 and the outer diameter of the member 341 are formed so that the plurality of elevating members 341 are simultaneously moved upward and downward through the through holes 341a, (345);

The driving unit 346b is coupled to the inside of the plate-like elevating member 345 in an upper side of the merging assembly 320 in a state where the driving shaft 346b is screwed using the driving shaft 346a and the driving shaft 346a And a motor 346 for automatically moving the plate-like lifting member 345 upward and downward by a spiral rotation operation of the plate-shaped lifting member 345,

It is preferable that the lifting bolt 343 screwed to the fixing member 342 is separated from the fixing member 342 when the plate-like lifting member 345 and the motor 346 are used.

As described above. While the invention has been shown and described with reference to certain preferred embodiments thereof, 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 understood by those skilled in the art that various changes, modifications, and alterations can be made by those skilled in the art.

1. Pressurized floating tank 100. Body
200. Scrape apparatus 300. Discharge means
310. Drain appearance 320. Joining body
330. Plate-type water level adjusting means 340. Tubular water level adjusting means
360. Filter element 331. Closing plate
332. Raising plate 333, 343. Raising bolt
350. Motor

Claims (5)

The wastewater is introduced into the floatation space 140 through the inlet port 110. The floating sludge and the floating contaminants contained in the wastewater are separated and purified by buoyancy of microbubbles, A main body 100 for inducing a sedimentation action by using a plurality of inclined diaphragms 120 tightly arranged in an inclined state;
A scraper device 200 installed on the main body 100 to filter out floating foreign matter caused by buoyancy of minute bubbles;
The purified water from the wastewater is supplied by a plurality of drain outlets 310 connected to the outside of the main body 100 from one side or both sides of the main body 100, A discharging means 300 for discharging to the next stage by using the discharging means 300;
And a discharge hopper 400 installed at a lower end of the main body 100 for spontaneously discharging the sludge deposited at the lowermost part of the floating space 140 to the outside,
The discharge means 300 includes a plurality of drain outlets 310 connected at one end to the outer lower portion of the main body 100 and connected at the other end to the lower end of the merging housing 320 to supply purified water.
The drain external pipe 310 is connected to the drain pipe 310 in a state where the drain pipe 310 is installed on one side or both sides of the main body 100 in the longitudinal direction. The drain pipe 310 joins all the purified water supplied by the drain pipe 310, Further comprising a merging housing (320) for discharging the purified water to the next stage by using the port (321)
The drain outer pipe 310 further includes a filter member 360 for preventing sludge and other foreign matter remaining in the purified water from flowing into the drain outer pipe 310. The filter member 360 is made of a metal mesh The lower portion of the drain outer pipe 310 is inserted between the portions of the main body 100 that are coupled to the outside of the main body 100,
The drainage means 300 may be provided inside the merging housing 320 to arbitrarily adjust the entire water level of the main body 100 by controlling the water level of the purified water supplied from the drainage pipe 310 Further comprising a tubular water level adjusting means (340)
The tubular water level adjusting means 340 is formed with a through hole 341a for discharging the purified water to the inside of the tubular water level adjusting means 340 in a state where the tubular water level adjusting means 340 is positioned higher than the entire water level of the main body 100, A plurality of elevating members 341 which are inserted into the through holes 341a so that the upper ends of the plurality of drain outer pipes 310 are respectively inserted and moved up and down;
A plurality of through holes 341a corresponding to the number of the mounts of the elevating member 341 and the outer diameter are formed inside the through holes 341a so as to penetrate the plurality of the elevating members 341, A plate-like lifting member 345 for simultaneously moving the plurality of the lifting members 341, which are fitted, up and down;
The driving unit 346b is coupled to the inside of the plate-like elevating member 345 by screwing the driving shaft 346a using the driving shaft 346a on the upper side of the merging housing 320 and the driving shaft 356a Further comprising a motor (346) for automatically moving the plate-like lifting member (345) upward and downward by a spiral rotation operation of the pressurizing floatation tank. delete delete delete delete

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