KR101291622B1 - Device for treating waste water having a micro bubble generator - Google Patents

Abstract

The present invention relates to a wastewater treatment apparatus equipped with a bubble generation unit capable of inducing and discharging the sludge contained in the wastewater by generating and supplying fine bubbles in the purification treatment tank to guide the discharged sludge to one side.
The present invention for realizing this is provided with an inlet on one side and the treatment tank is provided with a treated water outlet on the other side; A bubble generation unit installed at one inner side of the purification treatment tank to generate microbubbles in the wastewater stored in the storage space to induce sludge contained in the wastewater; A chain having a plurality of collecting plates spaced apart from the drive and interlocking chain gears to be discharged to the outside through the sludge outlet formed on the other side of the purification treatment tank by collecting the sludge injured by the bubble generating unit to one side Sludge removal portion made; including, wherein the bubble generating portion, the fixed tubular body fixedly installed in the upper and lower right inside the purification treatment tank; A drive motor fixed to the upper side of the fixed tube; An air induction pipe having one end integrally coupled to the output shaft of the drive motor and the other end rotatably bearing coupled to the lower side of the fixed tube body; A rotary blade coupled to the other end of the air induction pipe; And a double case shaped bubble generating cylinder having a plurality of bubble pulverization holes of different sizes to be formed around the rotary blades so as to generate micro bubbles by air discharged through the air induction pipe. It is done.

Description

Wastewater treatment device equipped with a bubble generating unit {Device for treating waste water having a micro bubble generator}

The present invention relates to a wastewater treatment apparatus equipped with a bubble generation unit, and more specifically, to generate and supply fine bubbles in the purification treatment tank to support sludge contained in the wastewater and to discharge induced sludge to one side. It relates to a waste water treatment apparatus provided with a bubble generation unit.

In general, as a means for removing the sludge contained in the waste water is to use a method of injecting micro-bubbles containing dissolved oxygen (dissolved, dissolved oxygen). As a method widely used in the microbubble injection, a dissolved oxygen flotation device is used. The principle of the microbubble injection device is as follows. First, when microbubbles are generated in a suspension in which oil particles, ie, normal hexanes are dispersed, the microbubbles are attached to the sludge particles and are floated due to the increased buoyancy.

The most important problem in the function of the dissolved oxygen flotation device supplied in the waste water is the generation size of micro bubbles. In other words, while maintaining the size of the micro-bubble is the most important to create and input, which is an essential requirement to increase the sludge removal efficiency in the waste water.

As such, a wastewater treatment apparatus equipped with a bubble generation device that generates fine bubbles and floats sludge has been proposed in various structures. For example, the conventional wastewater treatment device is a collection device for collecting injured injuries on the surface by attaching a plurality of collecting plates to the inlet pipe for introducing the wastewater into the upper portion of the purification treatment tank and a chain that is rotated by being rotated by the driving and interlocking chain gear. And a pressurized tank provided separately from the purifying treatment tank, a circulation pipe for pumping and supplying water from the purifying treatment tank to the pressurized tank as a pump, a compressor installed separately to supply compressed air to the pressurized tank, and in the pressurized tank. It consists of an injection valve in the supply pipe for supplying the pressurized compressed air and water to the purification treatment tank, and this conventional technique is a bubble generated when the pressurized water and air in the pressure tank is injected through the injection valve to reduce the amount of dissolved oxygen It is configured to float the sludge contained in the waste water into the water by air bubbles and process it. have.

However, the conventional wastewater treatment apparatus has a problem in that it takes not only a large installation cost but also a large installation space because it is necessary to install a device other than a purification treatment tank, that is, a pressure tank, a compressor, and an accessory facility. In addition, there is a problem in that a large amount of power consumption is required to operate the compressor and the pressurized tank.

The present invention has been made to solve the above-described problems, by generating and supplying fine bubbles in the purification treatment tank to efficiently support the sludge contained in the waste water while the bubble generating unit to enable the smooth induction discharge of the supported sludge The purpose is to provide a waste water treatment apparatus provided.

Bubble growth growth of the present invention for achieving the above object, the purification treatment tank is provided with an inlet on one side and the treated water outlet on the other side so that the waste water can be accommodated in the inner storage space; A bubble generation unit installed at one inner side of the purification treatment tank to generate microbubbles in the wastewater stored in the storage space to induce sludge contained in the wastewater; A chain having a plurality of collecting plates spaced apart from the drive and interlocking chain gears to be discharged to the outside through the sludge outlet formed on the other side of the purification treatment tank by collecting the sludge injured by the bubble generating unit to one side Sludge removal portion made; including, wherein the bubble generating portion, the fixed tubular body fixedly installed in the upper and lower right inside the purification treatment tank; A drive motor fixed to the purification treatment tank via a fixing bracket on an upper side of the fixed tube; An air induction pipe having one end integrally coupled to the output shaft of the drive motor and the other end rotatably bearing coupled to the lower side of the fixed tube body; A rotary blade integrally coupled to the other end of the air induction pipe; A double case shaped bubble generating cylinder having a plurality of bubble grinding balls having different sizes formed on outer circumferences thereof so as to surround the rotating blades so as to generate micro bubbles by air discharged through the air induction pipe; Characterized in that configured to include.

In this case, the first grinding hole formed in the inner case of the bubble grinding hole is drilled to 0.7 ~ 1mm, the second grinding hole formed in the outer case of the bubble generating cylinder is characterized in that the drilled to 0.2 ~ 0.5mm.

In addition, the outer circumferential surface of the air induction pipe is further provided with at least one propeller for generating a wind pressure so that the outside air introduced through the space between the fixed tube and the air induction pipe can be guided smoothly to the bubble generating cylinder side It includes.

In addition, the purification treatment tank is further provided with a water level control unit to adjust the level of the waste water stored in the storage space, the water level control unit is provided on one side inside the purification treatment tank; A pressing member slidably coupled upward and downward in the cylinder to press the waste water stored in the accommodation space to one side; And an operation lever screwed to the fixed frame so as to be selectively manipulated by the pressing member.

In addition, the outer circumferential surface of the bubble generating cylinder, and further comprises a pressure adjusting member for blocking a portion of the bubble grinding hole to increase the injection pressure of the bubbles generated and discharged.

The present invention having the above-described configuration generates and supplies fine bubbles in the purification treatment tank to increase dissolved oxygen in the waste water and at the same time efficiently support the sludge contained in the waste water, and facilitates the level of wastewater contained in the purification treatment tank. It can be adjusted so that the smooth induction discharge of the sludge flotation can be made.

1 is a block diagram of a wastewater treatment apparatus equipped with a bubble generating unit according to the present invention,
2 is an internal configuration diagram of the bubble generating unit according to the present invention,
3 is a cross-sectional view taken along the line II of FIG.
4 is another embodiment of the bubble generating unit according to the present invention,
5 and 6 is another embodiment of the bubble generating unit according to the present invention,
7 is an operating state of the water level adjusting unit according to the present invention,
8 is a plan view of a wastewater treatment apparatus according to the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, the same reference numerals as in the drawings denote the same elements in the drawings, unless they are indicated on other drawings.

1 is a block diagram of a wastewater treatment apparatus equipped with a bubble generating unit according to the present invention, Figure 2 is an internal configuration diagram of the bubble generating unit according to the present invention, Figure 3 is a cross-sectional view taken along line I-I of FIG.

Referring to Figure 1, the waste water treatment device 1 is provided with a bubble generating unit according to an embodiment of the present invention by supplying fine air in the received waste water to float the sludge contained in the waste water and at the same time injured sludge By collecting to one side and discharged to the outside, such a wastewater treatment device 1 is configured to include a purification treatment tank 100, bubble generation unit 200, sludge removal unit 300.

The configuration of the present invention will be described in detail as follows.

Purification treatment tank 100 is provided with a storage space (S) therein to accommodate a predetermined amount of waste water. And one side of the purification treatment tank 100 is provided with a waste water inlet 101, the other side is provided with a treated water outlet 102 so that the sludge filtered waste water can be discharged to the outside.

Bubble generation unit 200 is installed on one side of the purification treatment tank 100 to generate a large amount of fine bubbles in the waste water stored in the storage space (S) serves to injure the sludge contained in the waste water.

Here, the bubble generation unit 200 is preferably, as shown in Figure 2, the fixed tubular body 210 is fixed to be installed directly below the upper side of the purification treatment tank 100, the fixed tubular body 210 One end is integrally coupled and the other end to the drive motor 220 and the output shaft 220a of the drive motor 220 fixedly installed on the upper surface of the purification treatment tank 100 via the fixing bracket 221 on the upper side of the) The air induction pipe 230 is rotatably coupled to the lower side of the fixed tube body 210, the rotary blade 240 is integrally coupled to the other end of the air induction pipe 230, and the rotated A plurality of bubble grinding holes 251 are installed to surround the circumference of the rotary wing 240 to form a long elongated hole in the outer circumferential surface to generate a large number of micro bubbles by the air discharged into the water through the air induction pipe 230 It comprises a bubble generating cylinder 250 is provided.

In this case, at least one air inlet hole 230a is perforated in the upper one side of the air induction pipe 230 to allow external air to flow into the air induction pipe 230. In addition, a plurality of air discharge holes may be provided between the rotary blades 240 coupled to the lower side of the air induction pipe 230 so that the air introduced through the air inlet hole 230a may be discharged into the bubble generating cylinder 250. 230b) is perforated.

In this case, bubbles generated first through the rotary blade 240 are relatively large, and in the case of such a large bubble, the flotation force is fast and it is not evenly distributed in the water. For this reason, the sludge contained in the waste water cannot be efficiently floated, and the effect of increasing the amount of dissolved oxygen cannot be obtained.

Accordingly, as shown in FIG. 3, in the present invention, the bubble generating cylinder 250 is formed in a double case shape so that the bubbles are densely distributed in water by crushing the size of the bubbles that are initially large. can do. Here, preferably, the bubble generating cylinder 250 forms bubbles of the air pulverization hole 251 differently, thereby finely pulverizing the bubbles firstly pulverized in the second, thereby more densely generating bubbles supplied into the water. It can be distributed.

For example, among the plurality of bubble grinding holes 251 formed on the outer circumferential surface of the bubble generating cylinder 250, the first grinding hole 251a provided in the inner case is drilled at 0.75 to 1 mm, and the outer case of the bubble generating cylinder 250 is provided. The second grinding hole 251b provided in the hole is preferably drilled with 0.2 to 0.5 mm smaller than the first grinding hole 251a.

The sludge removing unit 300 collects the sludge injured by the bubbles generated in the bubble generating unit 200 to one side, and then discharges it to the outside through the sludge outlet 103 formed on the other side of the purification tank 100. It plays a role. Here, the sludge removing unit 300 is preferably a chain in which a plurality of collection plates 341 are spaced apart from the driving and interlocking chain gears 320 and 330 that are rotated by the power of the motor 310. 340 is made speech. (See Fig. 1)

4 is another embodiment of the bubble generating unit according to the present invention.

Referring to Figure 4, the outer circumferential surface of the air induction pipe 230 can be smoothly guided to the external air flow introduced through the space between the fixed pipe 210 and the air induction pipe 230 to the bubble generating cylinder 250 side. At least one propeller 235 may be provided to generate wind pressure.

The propeller 235 as described above rotates integrally with the air induction pipe 230 which is rotated by the power of the driving motor 220 to generate wind pressure toward the bubble generating cylinder 250. The wind pressure generated in this way can continuously generate a greater amount of bubbles by continuously supplying the outside air to the bubble generating barrel (250).

5 and 6 are views showing another embodiment of the bubble generating unit according to the present invention, as shown in Figure 5, by blocking a portion of the bubble grinding hole 251 on the outer peripheral surface of the bubble generating cylinder 250 A pressure regulating member 253 may be further provided to increase the injection pressure of bubbles generated and discharged.

The pressure regulating member 253 serves to increase the flow rate at the moment when the bubble generated in the bubble generating cylinder 250 passes through the bubble grinding hole 251 with a sudden decrease in cross-section, thereby increasing the amount of bubbles generated. On the other hand, it is possible to distribute the crushed microbubbles more widely.

In addition, as shown in Figure 6, the bubble grinding hole 251 of the present invention is a triangular prism-shaped wedge bar (Wedge bar) is gradually formed a wider gap between the bubble grinding hole 251 from the inner side to the outer side on the horizontal line Can be done. Accordingly, it is possible to quickly accelerate the flow rate of the bubbles generated and discharged in the bubble generating barrel (250).

7 is an operational state diagram of the water level control unit according to the present invention, Figure 8 is a plan view of the wastewater treatment apparatus according to the present invention.

7 and 8, the inner side of the purification treatment tank 100 is further provided with a water level control unit 400 to adjust the level of the waste water stored in the storage space (S). The water level control unit 400 serves to adjust the appropriate level so that the sludge injured by the bubble generating unit 200 can be easily collected through the sludge removal unit 300 and discharged to one side.

Here, preferably, the water level control unit 400 is coupled to the cylinder 410 provided on one side of the purification treatment tank 100 so as to be slidable a predetermined distance upward and downward in the cylinder 410 to accommodate the storage space S. Including a pressing member 420 for pressing the waste water stored in the side to one side, and the operation lever 430 is screwed to the fixed frame 431 so that the pressing member 420 can be operated up and down Is done.

Meanwhile, the wastewater inlet 101 of the wastewater treatment apparatus 1 may be integrally provided with an additive input unit (not shown) for injecting various additives at a predetermined ratio to facilitate neutralization, reaction, and sludge agglomeration of the introduced wastewater.

Referring to FIG. 1 again, the operation of the wastewater treatment apparatus provided with the bubble generating unit having such a structure is as follows.

First, when the driving motor 220 of the bubble generating unit 200 is operated, the air induction pipe 230 rotates at a high speed, and accordingly, the rotary blade 240 by the centrifugal force action of the rotating blade 240 rotates. The air introduced through the air inlet hole (230a) is discharged from the air discharge hole (230b) is formed between a large number.

In this case, since water is filled up inside the bubble generating container 250, the rotary blade 240 rotating at a high speed in the initial stage of operation of the driving motor 220 drives out the water introduced into the bubble generating container 250. Get hit.

Accordingly, in the initial stage of purification, water and bubbles are discharged together through the bubble pulverization hole 251, and thus, the bubble is generated by the air discharged to the air discharge hole 230b as the rotary blade 240 rotates at a high speed. Predetermined pressure is generated inside 250. The water is not introduced again even if the water introduced into the bubble generating container 250 is released by this pressure, so that the air bubbles are compressed to some extent through the bubble grinding hole 251 in the bubble generating container 250. It will exit to the outside.

In this case, the air compressed in the bubble generating container 250 continuously passes through the first grinding hole 251a and the second grinding hole 251b, which are gradually smaller in size, thereby continuously generating microbubbles. The generated microbubbles are discharged in all directions.

Accordingly, the microbubbles in the densely dispersed state are slowly floated to the area adjacent to the wastewater inlet 101, in which the bubble generating container 250 is installed, and at the same time, sludge contained in the wastewater introduced through the wastewater inlet 101 is provided. Densely diffuses and floats to the surface due to the floating microbubbles.

The sludge floated on the surface of the sludge flows to the sludge discharge port 103 side by the conveying action of the collecting plate 341 after being moved to the water surface of the sludge removing unit 300 after being overflowed.

Waste water from which sludge has been filtered is discharged to the outside through the treated water outlet 102.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

1: Wastewater treatment device 100: Purification tank
101: waste water inlet 102: treated water outlet
103: sludge outlet 200: bubble generation unit
210: fixed tube 220: drive motor
230: air induction pipe 240: rotary wing
250: bubble generation cylinder 251a: the first grinding hole
251b: second grinding hole 300: sludge removal unit
310: motor 320: drive chain gear
330: interlocking chain gear 340: chain
341: collection plate 400: water level control unit
410: cylinder 420: pressure member
430: operation lever 431: fixed frame

Claims (5)

A purification space (100) provided with an accommodation space (S) therein so that the waste water can be stored, the waste water inlet 101 is provided at one side, and the treatment water outlet 102 is provided at the other side;
A bubble generation unit 200 installed in the purification treatment tank 100 to generate microbubbles in the wastewater stored in the storage space S to float the sludge contained in the wastewater; And
Drive and interlocking chain gears 320 and 330 to collect the sludge injured by the bubble generating unit 200 to one side to discharge to the outside through the sludge outlet 103 provided in the purification tank 100. It includes; a sludge removal unit 300 is formed by the chain 340 is a plurality of collection plate 341 is spaced apart in the speech;
The bubble generation unit 200, the fixed tubular body 210 is fixedly installed in the upper and lower right inside the purification treatment tank (100); A drive motor 220 fixedly installed on the purification processing tank 100 via a fixing bracket 221 on the fixing pipe 210; An air induction pipe 230 having one end integrally coupled to the output shaft 220a of the drive motor 220 and the other end rotatably coupled to the lower side of the fixed tubular body 210; A rotary blade 240 integrally coupled to the other end of the air induction pipe 230; And a bubble grinding hole 251 having different sizes on the outer circumferential surface thereof so as to surround a circumference of the rotating rotor blade 240 so as to generate micro bubbles by the air discharged through the air induction pipe 230. And a plurality of double case-shaped bubble generating cylinders 250;
The purification treatment tank 100 is further provided with a water level control unit 400 to adjust the level of the waste water stored in the storage space (S), the water level control unit 400 is the purification treatment tank 100 A cylinder 410 provided at one side of the inside; A pressing member 420 coupled slidably up and down in the cylinder 410 to press the waste water stored in the storage space S to one side; And a manipulation lever 430 that is screwed to the fixed frame 431 so that the pressing member 420 can be selectively manipulated.
The method of claim 1,
The first grinding hole 251a provided in the inner case of the bubble grinding hole 251 is drilled to a size of 0.7 to 1 mm, and the second grinding hole 251b provided in the outer case of the bubble generating cylinder 250. ) Is a wastewater treatment apparatus equipped with a bubble generating unit, characterized in that perforated to a size of 0.2 ~ 0.5㎜. The method according to claim 1 or 2,
The outer circumferential surface of the air induction pipe generates a wind pressure so that the external air introduced through the space between the fixed pipe 210 and the air induction pipe 230 can be guided smoothly to the bubble generating cylinder 250 side. At least one propeller (235) is a waste water treatment apparatus provided with a bubble generating unit comprising a further provided. delete The method of claim 1,
On the outer circumferential surface of the bubble generating cylinder 250,
The bubble water treatment device provided with a bubble generation unit further comprises a pressure adjusting member (253) for blocking a portion of the bubble grinding hole (251) to increase the injection pressure of the bubbles generated and discharged.

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