KR102608895B1 - Small size filtering device of aero type of cycling up/down vertical flow with float filter material and system recycling the polluted float filter material thereof - Google Patents

Abstract

The present invention, unlike the “mechanical agitation rotation method” of the conventional “horizontal flow circulation rotational flow,” includes a vertical flow circulation vertical bulkhead, streamlined wings at the top and bottom thereof, and a vertical flow induction trajectory of the inclined reduction part. By applying the “upward/downward vertical flow circulation air method” of the “rotation flow (Vf)” to a compact and miniaturized scale, the upward and downward vertical circulation flow (Vf) circulates evenly without stagnation throughout the entire area of the filtration tank, creating a floating filter. This is an invention that allows separation and regeneration of , but optimizes the separation and regeneration on a small scale without the filter medium being worn or damaged by the circulating rotational flow (Vf).

Description

Compact and miniaturized filtration device for floating filter with up/down vertical flow circulating air method and optimized filter regeneration system using the same {Small size filtering device of aero type of cycling up/down vertical flow with float filter material and system recycling the polluted float filter material thereof}

The present invention relates to a compact and miniaturized filtration device for floating filter media of the upper and lower vertical flow circulating air method and an optimized filter media regeneration system using the same. More specifically, the present invention relates to the “mechanical agitation and rotation method” of the conventional “horizontal flow circulation rotational flow” In contrast, the “Upward/Downward Vertical Flow Circulation Air System” of the “Upward/Downward Circulation Rotational Flow (Vf)”, which includes the vertical flow circular bulkhead, streamlined wings at the top and bottom of the vertical flow, and the vertical flow induction trace of the inclined reduction part, is compact. By applying it on a miniaturized scale, the upward and downward vertical circulation flow (Vf) circulates evenly without stagnation throughout the entire area of the filtration tank, thereby allowing separation and regeneration of the flotation media. The separation and recycling has been optimized on a small scale without wear or damage.

In general, various filtration devices are currently used to remove fine suspended matter from industrial water, sewage, and wastewater. Filtration devices are roughly divided into down-flow and up-flow types. Downflow filter media uses sand or activated carbon. Downflow filtration devices have the problem of large device scale, low filtration efficiency, and difficulty in regenerating contaminated filter media.

On the other hand, unlike downward-flowing filter media, upward-flow filter media mainly uses resinous or fibrous filter media (also called flotation media) with a specific gravity less than 1.

The upflow filtration device using such floating media largely consists of [filtration process using floating media → stirring process of contaminated filter media → separation process of pollutants/filter media → regeneration process of filter media].

The flotation media that rotates with the contaminated water supplied by the pump comes in contact with and adheres to contaminants such as sludge and goes through a filtration process. A filtration layer is formed by a flotation media. With the meeting, the adhesion of contaminants to the floating media increases.

The greater the attachment of pollutants, the slower the circulation of the supplied polluted water. This is because the filtration layer of the flotation media becomes clogged.

It is time to separate pollutants for regeneration of the flotation filter layer. Through separation, the filter medium is regenerated, and the separated contaminants are discharged and removed.

At this time, separation is usually separated by horizontal rotation of the stirring device (see Figure 1).

Flotation filter media such as resin filter media, foamed granular filter media, or fiber filter media have the advantage of having a light specific gravity, allowing the clogged filter layer to be easily agitated, and requiring less washing water.

The operating relationship of the filter is explained in more detail with reference to Figure 1 as follows.

The operation of the filter in Figure 1 consists of a filtration process, a filter media separation process, and a sewage discharge process.

First, the filtration process will be explained.

The filtration process is a process in which contaminated water supplied into the filtration tank (1) is filtered by flotation media (a). The valves of the contaminated water supply pipe (7) and the filtered water discharge pipe (4) are open.

Contaminated water is supplied into the filtration tank (1) through the contaminated water supply pipe (9).

Contaminated water is supplied into the filtration tank (1) under pressure by the pump (11) through the contaminated water supply pipe (9). Contaminated water is supplied and moved toward the filtered water discharge pipe (4) connected to the water collection nozzle (2). The floating filter media (a) is concentrated at the upper part of the filtration tank (1) to form a filter media layer. As the contaminated water passes through the filter media layer, the contaminants attach to the filter media (a) and the contaminated water is filtered. The process of filtering contaminated water is a filtration process.

Next, the separation process of the filter medium and the discharge process of pollutants will be described.

As the filtration process progresses, contaminants are attached to the flotation media (a), necessitating a cleaning process for the filter media. When a lot of contaminants are attached to the flotation media (a), it is difficult for contaminated water to pass through the filter media layer, causing a problem in that the pressure load on the pump (11) is large. It is time to separate the filter media.

For this purpose, close all valves on the contaminated water supply pipe (9)/filtered water discharge pipe (4) connected to the filtration tank (1). In this state, the stirring blade 12 is rotated by a motor placed vertically on the bottom of the filtration tank 1 to disperse and spread the floating filter medium a in the dense filter medium layer. Through this process, contaminants are separated from the filter medium. This process is the filter media separation process and pollutant discharge process.

When the separation of filter media/contaminants is completed through the filter media separation process, the rotation of the stirring blade 12 is also stopped. At this time, the separated and regenerated flotation media (a) is moved to the upper part of the filtration tank (1), and the contaminants are moved to the lower part of the filtration tank (1). This is because the specific gravity of the flotation media (a) is less than 1, and the specific gravity of the contaminants is greater than 1. Contaminants that have settled down are removed through the lower contaminant discharge pipe (7).

After the contaminants are removed through the filter media separation process, the contaminated water is supplied again into the filtration tank (1) through the contaminated water supply pipe (9) while the regenerated flotation media (a) remains.

In this way, filtration and regeneration discharge are achieved by repeatedly performing the filtration process, the separation process of the filter medium, and the discharge process of pollutants.

In addition, in the filter media separation process of Figure 1, when the filter media and contaminants are separated, the rotation of the water in the filter tank (1) is a “horizontal flow” caused by the stirring blade (12). This is because the stirring blades 12 are arranged vertically on the bottom of the filtration tank 1.

Because it is a “horizontal flow” rotation, a blind spot is created in which the rotational force is not sufficiently transmitted to the side corner (C) of the filtration tank (1) and the side (B) adjacent to the water collection nozzle (2), as shown in Figure 1. It is bound to happen. This is due to the inevitable “horizontal rotation structural” that causes “horizontal rotation flow” unlike “vertical rotation flow.” In the blind area of the side corner part (C), regeneration of the floating filter media (a) does not occur, and in the blind area adjacent to the water collection nozzle (2), deposition and solidification of contaminants occurs. As a result, there is a problem that causes a decrease in filtration ability.

The “horizontal flow rotation method” using the stirring blade 12 as shown in Figure 1 is the “mechanical agitation rotation method.” The “mechanical agitation rotation method” involves forced agitation of the agitation blade 12 by a motor, so its structure makes it suitable for medium to large filtration tanks.

However, if the rotational force of the stirring blade 12 is greatly increased in order to solve the blind spot and the problem of deposition and solidification of pollutants in the “mechanical stirring rotation method,” wear or damage of the floating media (a) may occur. Not only does it occur more seriously, but separation of the filter media does not occur more efficiently, which ultimately causes the problem that separation and regeneration of the filter media is inefficient and uneconomical.

In addition, when the above-mentioned “mechanical agitation rotation method” of forced agitation is applied to a filtration tank with a miniaturized flotation media, the “horizontal flow” rotation of the strong stirring blade 12 causes severe wear and damage to the flotation media. And, compared to the scale of the agitated rotation structure, the rotational separation and regeneration of the filter medium has the problem of being inefficient and uneconomical.

⒜ The present invention, unlike the “mechanical agitation and rotation method” of the conventional “horizontal flow circulation rotation flow,” includes a vertical flow circulation vertical bulkhead, streamlined wings at the upper and lower ends, and a vertical flow guidance trace of the inclined reduction part. By applying the “upward/downward vertical flow circulation air method” of the “circulating rotational flow (Vf)” to a compact and miniaturized scale, the upward/downward vertical circulation flow (Vf) circulates evenly without stagnation throughout the entire area of the filtration tank, thereby floating. The purpose is to ensure separation and regeneration of the filter medium, but to optimize the separation and regeneration on a small scale without the filter medium being worn or damaged by the circulating rotational flow (Vf),

⒝ 「Upward and downward vertical flow circulation air method」 is easy to control the air supply, so it is easy to adjust the sudden and instantaneous shock flow for the upward and downward vertical circulation rotational flow (Vf), thereby separating contaminants and flotation media by rapid shock flow. Another purpose is to make the regeneration of

⒞ The “upward/downward vertical circulation rotational flow (Vf)” of the “upward/downward vertical circulation air system” is achieved by the structure of the vertical circulation vertical bulkhead (140) and the air T-type horizontal supply pipe (150a) (150b). By doing so, the “structure of upward and downward vertical circulation rotational flow (Vf)” is simple and suitable for compact and small scale, and another purpose is to ensure that the separation and regeneration of the flotation media is also carried out efficiently and economically.

The configuration of the compact, miniaturized filtration device for the floating filter using the upward/downward vertical flow circulation air method of the present invention will be described as follows.

The filtered water outlet 114 is coupled to the outside and the strainer 115 is coupled to the center through hole of the coupling flange 112 at the top of the filtration tank (T), while the contaminated water is coupled to the bottom of the filtration tank (T). In a filtration tank with a supply inlet and a contaminant outlet,

The cylindrical filtration tank 100 is connected to a vertical part 110 with a height of H from the top to the bottom, an inclined reduction part 120, and a vertical reduction part 130, and a contaminant outlet 136 at the lower part of the vertical reduction part 130. A, and a contaminated water supply port 132 is formed on the side of the vertical reduction part 130, while a vertical flow circulation vertical partition wall 140 is formed in the upper and lower open spaces 142 and 144 within the vertical part 110. It is installed vertically in between, and is thereby divided into vertical upper and lower circulation spaces 146 and 148, but the vertical circulation longitudinal partition wall 140 penetrates the center of the cylindrical vertical portion 110 and its end is the vertical portion ( 110), and an air T-type horizontal supply pipe 150 connected to the air supply pipe 160 is installed in the vertical upper and lower circulation spaces 146 and 148, respectively, and an air T-type horizontal supply pipe ( The structure of 150 is made up of a straight horizontal supply pipe 152 with an air discharge hole 156 and an orthogonal horizontal supply pipe 154, and the cylindrical filtration tank 100 has a support frame 170 with a base plate 172. ) It is a compact, miniaturized filtration device with an upward/downward vertical flow circulating air type flotation media that is independent and supported by ).

Here,

Upward and downward vertical flow circulation, characterized in that the circulation space connected to the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142 and 144) becomes a vertical cycle flow passage (C). It is a compact, miniaturized filtration device with an air-type flotation media.

also,

The diameter of the cylindrical filtration tank 100 ( ) The ratio of the height H of the vertical portion 110 to H/ = 1.5 to 4.0, and the ratio of the height h of the inclined reduction part 120 to the height H of the vertical part 110 is h/H = 0.15 to 0.20. It is a compact and miniaturized filtration device for flotation media.

Not only that,

The vertical height V of the vertical circulation vertical partition wall 140 located between the upper and lower open spaces 142 and 144 is 1/2 of the height (H + h) of the filtration tank 100, and the vertical circulation vertical partition wall The height of the upper open space 142 from the upper end of the vertical part 110 to the coupling flange 112 of the vertical part 110, and the connection flange of the vertical reduction part 130 from the lower part of the vertical flow circulation longitudinal partition wall 140 ( The height of the lower open space 144 up to 134) is 1/4 of the height (H+h) of the filtration tank 100, and a vertical flow circulation vertical partition wall 140 is installed at this position. It is a compact, miniaturized filtration device with a downward vertical flow circulating air type flotation media.

also,

The air T-type horizontal supply pipe (150), which is formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), is installed in the vertical upper and lower circulation spaces (146) and (148), and its installation location is for vertical flow circulation. It is a compact, miniaturized filtration device for an upward/downward vertical flow circulating air type flotation media, which is located at 1/3 of the vertical height V at the lower end of the vertical partition 140.

The present invention “upward/downward vertical flow circulation air method” is a “filter material separation/regeneration method” using upward/downward vertical circulation rotational flow (Vf), unlike the “horizontal circulation rotational flow” of the “mechanical stirring rotation method.” (see Figure 2a)

Upward and downward vertical circulation rotational flow (Vf) is a flow that circulates along the vertical cycle flow passage (C). The floating media 180 is regenerated as the attached contaminants are separated by the flow energy of the circulating rotational flow (Vf).

The vertical cycle flow passage (C) is a circulation flow passage that connects the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142) (144). The vertical upper and lower circulation spaces 146 and 148 and the upper and lower open spaces 142 and 144 are divided by a vertical circulation partition wall 140. The divided spaces connected to each other are the vertical cycle flow passages (C) of the circular flow structure (see Figure 2a).

The flow rate of the upward and downward vertical circulation rotational flow (Vf) of the vertical cycle flow passage (C) is injected into the air T-type horizontal supply pipes (150a) (150b) installed in the vertical upper and lower circulation spaces (146) (148), respectively. This is the amount of pressurized air.

The velocity of the upward and downward vertical circulation rotational flow (Vf) is the kinetic energy.

Pressurized air is supplied to the air supply pipe 160 by a normal compressor.

The floating media 180 is regenerated as contaminants are separated by the kinetic energy of the upward and downward vertical circulation rotational flow (Vf).

In addition, the “Upward/Downward Vertical Flow Circulating Air System” enables rapid, instantaneous shock flow adjustment for the upward/downward vertical circulation rotational flow (Vf) by controlling the air supply, thereby separating contaminants and flotation media through rapid shock flow. Regeneration of (180) becomes more efficient.

In this way, separation of contaminants and regeneration of the flotation media 180 are achieved by flow energy.

In order to increase the kinetic energy (rotational speed) of the upward and downward vertical circulation rotational flow (Vf), the upper and lower ends of the vertical circulation partition wall 140 are installed in the same direction as the flow direction of the upward and downward vertical circulation rotational flow (Vf). It is desirable that streamlined wings 149 are formed.

The injected air is discharged through the upper and lower air discharge holes 156a and 156b formed in the T-shaped horizontal supply pipes 150a and 150b (including the straight horizontal supply pipe 152 and the orthogonal horizontal supply pipe 154). · Forms a downward vertical flow (U) (D).

As shown in FIG. 3, the positions of the upper and lower discharge holes 156a and 156b on the circular cross-section are proportional to the point where the upper and lower peripheral surfaces meet a 45-degree line drawn from the center O of the X-X axis of the circular cross-section of each supply pipe. At this time, the upward discharge holes (156a) (156b) are formed only at the upper part of the X-X axis, and the downward discharge holes (156a) (156b) are formed only at the lower part of the X-X axis.

As shown in FIG. 4, the longitudinal positions of the upper and lower air discharge holes 156a and 156b are preferably zigzag at regular intervals along the longitudinal direction of each supply pipe. This is to obtain efficient and smooth optimized kinetic energy of the upward and downward vertical circulation rotational flow (Vf).

The arrangement of the air T-type horizontal supply pipes (150a) (150b), in which the straight horizontal supply pipe 152 and the orthogonal horizontal supply pipe 154 are formed as one piece, are as shown in Figure 4, which is an A-A cross section.

Meanwhile, the present invention “upward/downward vertical flow circulation air method” is applied to a compact and miniaturized cylindrical filtration tank (100).

At this time, the diameter (ϕ) of the cylindrical filtration tank 100 (vertical portion 110) is preferably 25 to 75 cm.

When the diameter (ϕ) of the vertical portion 110 of the cylindrical filtration tank 100 is 25 cm or less, the kinetic energy of the “upward/downward vertical circulation rotational flow (Vf)” increases, but the diameter (ϕ) of the vertical portion 110 Because this is too small, it is inefficient from the viewpoint of optimization of filter material separation and regeneration, and when the diameter (ϕ) of the vertical part 110 becomes more than 75 cm, the movement of “upward and downward vertical circulation rotational flow (Vf)” for filter material separation and regeneration Since the energy must be increased accordingly, the size of the air compressor must also be increased, making it uneconomical and inefficient from the perspective of optimization of filter material separation and regeneration.

In addition, the inclined reduction part 120 below the vertical part 110 of the cylindrical filtration tank 100 is the trace of the “upward and downward vertical circulation rotational flow (Vf)”.

The feature is that the “upward and downward vertical circulation rotational flow (Vf)” in the compact and miniaturized cylindrical filtration tank (100) is optimized by the trajectory of the inclined reduction unit (120) and the vertical cycle flow passage (C). The kinetic energy of the optimized “upward and downward vertical circulation rotational flow (Vf)” is the source energy for filter media separation and regeneration.

Additionally, a viewing window 116 is formed in the vertical portion 110 of the compact and miniaturized filtration tank 100 to inspect the separation and regeneration of the filter medium.

The strainer 115 in the compact filtration tank 100 is a strainer commonly used in filtration tanks.

⒜ The present invention, unlike the “mechanical agitation and rotation method” of the conventional “horizontal flow circulation rotation flow,” includes a vertical flow circulation vertical bulkhead, streamlined wings at the upper and lower ends, and a vertical flow guidance trace of the inclined reduction part. Since the “upward/downward vertical flow circulation air method” of the “circulating flow (Vf)” has been applied to a compact and miniaturized scale, the upward/downward vertical circulation flow (Vf) circulates evenly without stagnation throughout the entire area of the filtration tank, causing levitation. Separation and regeneration of the filter media are achieved, but the separation and regeneration is optimized on a small scale without the filter media being worn or damaged by the circulating rotational flow (Vf),

⒝ In addition, the “Upward/Downward Vertical Flow Circulating Air System” is easy to control the air supply and can easily adjust the sudden and instantaneous impact flow for the upward/downward vertical circulation rotational flow (Vf), allowing for the separation of contaminants by the rapid shock flow. This has the effect of making regeneration of the flotation media more efficient.

⒞ In addition, the “upward and downward vertical circulation rotational flow (Vf)” of the “upward and downward vertical circulation air system” is applied to the structure of the vertical circulation vertical bulkhead (140) and the air T-type horizontal supply pipe (150a) (150b). Since it is made by this method, the “structure of the upward and downward vertical circulation rotational flow (Vf)” is simple and suitable for compact and small scale, and the separation and regeneration of the flotation media is also effective in being efficient and economical.

{Figure 1} Cross-sectional view of a conventional filter media separation and agitation device using horizontal rotational flow
{Figure 2a} Cross-sectional view of a compact and miniaturized filtration device for flotation media using the vertical vertical flow circulation air method of the present invention
{Figure 2b} Cross-sectional view showing the flow of vertical vertical flow by the vertical vertical flow circulation air method of the present invention
{Figure 3} Cross-sectional perspective view of the compact and miniaturized filtration device of the floating filter using the vertical vertical flow circulation air method of the present invention
{Figure 4} AA cross-sectional view of Figure 2a

The configuration of the optimized filter media regeneration system using the compact and miniaturized filtration device of the floating filter media of the present invention using the vertical flow circulation air method is described as follows.

The filtered water outlet 114 is coupled to the outside and the strainer 115 is coupled to the center through hole of the coupling flange 112 at the top of the filtration tank (T), while the contaminated water is coupled to the bottom of the filtration tank (T). An inlet and an outlet for pollutants are formed, and in the separation and regeneration of the filter medium, the valve is closed to allow contaminated water and filter medium to flow in a sealed state in the filter tank (T), thereby removing contamination from the filter medium. In a filter media separation system that separates substances,

The vertical circulation space (146) (148) and the upper and lower open spaces (142) (144) are formed by the vertical flow circulation vertical partition wall (140) installed in the vertical part (110) of the cylindrical filtration tank (100). It is divided, and the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142) (144) are connected to each other to form a vertical cycle flow passage (C), and the vertical upper and lower circulation spaces (146) ) (148) is installed with an air T-type horizontal supply pipe (150a) (150b) formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), while air pressurized through the air supply pipe (160) is installed. The air is injected into the T-type horizontal supply pipes (150a) (150b), and at this time, an upward vertical flow (U) flows from the air upward discharge hole (156a) of the air T-type horizontal supply pipe (150a) installed in the vertical upstream circulation space (146). , and a downward vertical flow (D) is generated from the air downward discharge hole (156b) of the air T-type horizontal supply pipe (150b) installed in the vertical downstream circulation space (148), and the upward and downward vertical flows (U ) (D) is an upward and downward vertical circulation rotational flow (Vf) through a vertical cycle flow passage (C) consisting of vertical upper and lower circulation spaces (146) (148) and upper and lower open spaces (142) (144). is generated, and the contaminants attached to the flotation media (180) are separated by this upward and downward vertical circulation rotational flow (Vf), thereby regenerating the flotation media (180). This is an optimized filter media regeneration system using a compact and miniaturized filtration device.

Here,

By adjusting the air supply, a sudden instantaneous shock flow is provided to the upward and downward vertical circulation rotational flow (Vf), thereby efficiently separating and regenerating the flotation media due to the rapid shock flow. It is an optimized filter media regeneration system using a compact and miniaturized filtration device for flotation media.

also,

A compact floating filter of the vertical flow circulation air type, characterized in that the upper and lower ends of the vertical circulation bulkhead (140) become streamlined wings (149) to smoothly achieve upward and downward vertical circulation rotational flow (Vf). It is an optimized filter regeneration system using a miniaturized filtration device.

Not only that,

The air T-type horizontal supply pipe (150), which is formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), is installed in the vertical upper and lower circulation spaces (146) and (148), and its installation location is for vertical flow circulation. By being located at 1/3 of the vertical height V at the lower part of the vertical bulkhead 140, the upward and downward vertical circulation flow (Vf) of the vertical cycle flow passage (C) is smoothly achieved, and the upward and downward vertical circulation rotation is achieved. It is an optimized filter media regeneration system using a compact and miniaturized filtration device for floating filter media of the upper and lower vertical flow circulating air type, which is characterized by ensuring that there are no blind spots of the flow (Vf) in the filtration tank (100).

Typically, the filtration/separation and regeneration process consists of a series of “filtration process → separation and regeneration process → sewage discharge process.” The present invention is also similar to a typical series of processes.

However, among the series of processes, the only difference is in the element composition of the "separate regeneration process" of the "upward and downward vertical flow circulation air method" of the optimized filter media regeneration system.

This is because the “upward/downward vertical flow circulation air method” of the optimized filter media regeneration system of the present invention is characterized by improving the problems of the conventional “mechanical stirring rotation method” (i.e., “horizontal flow circulation method”).

In other words, the “upward and downward vertical flow circulation air method” of the optimized filter media regeneration system of the present invention is a vertical rotational flow method that is applied to compact and miniaturized filtration tanks and optimizes separation efficiency without blind spots in the horizontal rotational flow, whereas the conventional “mechanical agitation method” The “rotational method” is a horizontal rotary flow method suitable for large-scale filtration tanks, and since a blind spot occurs in the horizontal rotary flow, the two rotary flow methods are completely different.

In addition, the media separation/regeneration energy is the kinetic energy of the vertical rotational flow in the case of the “upward/downward vertical flow circulation air method,” and the kinetic energy of the horizontal rotational flow in the case of the “mechanical stirring rotation method.”

The magnitude of the kinetic energy of the vertical rotational flow of the “upward/downward vertical circulation air method” caused by air supply is very small compared to the kinetic energy of the horizontal rotational flow of the “mechanical stirring of the stirring blade” of the “mechanical stirring rotation method”. This is due to inevitable differences in energy supply structure. This is why the “upward/downward vertical flow circulation air method” is suitable for small filtration tanks.

The shape of the inclined reduction part 120 at the lower part of the cylindrical filtration tank 100 and the streamlined wings 149 at the upper and lower ends of the vertical flow circulation vertical partition wall 140 is defined as an “upward/downward vertical circulation rotational flow (Vf)”. This is to minimize the decrease in kinetic energy of the “upward/downward vertical rotational flow (Vf)” by making it the same as the trajectory.

During the “separation and regeneration process,” the “upward/downward vertical circulation flow (Vf)” is circulated along the vertical cycle flow passage (C).

During the “separation and regeneration process,” pressurized air is injected into the air T-type horizontal supply pipes (150a) (150b). “Upward/downward vertical circulation rotational flow (Vf)” circulates along the vertical cycle flow passage (C). Contaminants are separated from the flotation media by this “upward/downward vertical circulation rotational flow (Vf)”. The separated contaminants settle at the bottom of the filtration tank 100, and the regenerated flotation media 180 floats. Precipitated contaminants are removed through the contaminant outlet 136.

Now, the operational relationship for the series of “inflow process → separation and regeneration process → pollutant discharge process” is summarized as follows.

First, the inflow process is a process in which contaminated water is supplied into the cylindrical filtration tank 100 through the contaminated water supply port 132 and the contaminated water is filtered by the flotation filter 180. Only the valves of the contaminated water supply port 132 and the filtered water outlet 114 are open.

Second, the separation and regeneration process is a process in which contaminants attached to the flotation media 180 are separated and regenerated by the “upward and downward vertical flow circulating air method.”

The valves of the contaminated water supply port 132 and the filtered water outlet 114 are closed, that is, the filtration tank 100 is closed.

Third, the pollutant discharge process is a process in which precipitated pollutants are removed through the pollutant discharge port 136.

In this way, the “Upward and Downward Vertical Flow Circulation Air System” of the present invention, “Upward and Downward Circulation Rotational Flow (Vf),” includes the vertical flow circular bulkhead, the streamlined wings at the upper and lower ends thereof, and the vertical flow induction trace of the inclined reduction part. is a useful invention that is not only suitable for compact and miniaturized filtration tanks, but also has the feature of optimizing the separation and regeneration of flotation media by its “upward and downward vertical circulation flow (Vf)”.

100; cylindrical filtration tank,
110; Vertical portion 110, 112; coupling flange (112), 114; filtrate outlet, 115; strainer, 116; viewing window, 120; Slant reduction unit 120, 130; Vertical reduction unit 130, 132; contaminated water supply port (132), 134; Connection flange (134), 136; pollutant outlet (136),
140; Vertical flow circulation longitudinal bulkhead (140), 142; upper open space (142), 144; bottom open space (144), 146; vertical upstream circulation space (146), 148; Vertical downstream circulation space (148), 149; Streamlined wings (149)
150a, 150b; Air T-type horizontal supply pipe (150a) (150b)
152; Straight horizontal supply pipe (152), 154; Orthogonal horizontal supply pipe (154), 156a; Air upward discharge hole (156a), 156b; Air downward discharge hole (156b),
160; air supply pipe (160),
170; support frame (170), 172; base plate 172,
180; Injury Yeojae (180)
※ Vertical cycle flow passage (C),
Upward/downward vertical flow (U)(D)
Upward/downward vertical circulation rotational flow (Vf)

Claims (9)

The filtered water outlet 114 is coupled to the outside and the strainer 115 is coupled to the center through hole of the coupling flange 112 at the top of the filtration tank (T), while the contaminated water is coupled to the bottom of the filtration tank (T). In a miniaturized filtration device with an inlet and a contaminant outlet,
The cylindrical filtration tank 100 is connected to a vertical part 110 with a height of H from the top to the bottom, an inclined reduction part 120, and a vertical reduction part 130, and a contaminant outlet 136 at the lower part of the vertical reduction part 130. A, and a contaminated water supply port 132 is formed on the side of the vertical reduction part 130, while a vertical flow circulation vertical partition wall 140 is formed in the upper and lower open spaces 142 and 144 within the vertical part 110. It is installed vertically between, and is thereby divided into vertical upper and lower circulation spaces (146) and (148), but the vertical circulation longitudinal partition wall (140) penetrates the center of the cylindrical vertical portion (110) and its end is the vertical portion ( 110), and T-type horizontal supply pipes (150a) (150b) connected to the air supply pipe 160 are installed in the vertical upper and lower circulation spaces (146) and (148), respectively. The structure of the supply pipes 150a and 150b is comprised of a straight horizontal supply pipe 152 with an air discharge hole 156 and an orthogonal horizontal supply pipe 154, while the floating media 180 in the vertical portion 110 is It is circulated with the upward and downward vertical circulation rotational flow (Vf) circulating along the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142) (144), and the cylindrical filtration tank (100) is the base. A compact and miniaturized filtration device for an upward/downward vertical flow circulating air type flotation media, characterized in that it is self-supporting and supported by a support frame (170) having a plate (172). In paragraph 1
Upward and downward vertical flow circulation, characterized in that the circulation space connected to the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142 and 144) becomes a vertical cycle flow passage (C). Compact, miniaturized filtration device with air-type flotation media In paragraph 1
The ratio of the height H of the vertical portion 110 to the diameter ϕ of the cylindrical filtration tank 100 is H/ϕ = 1.5 to 4.0, and the height h of the inclined reduction portion 120 relative to the height H of the vertical portion 110. A compact and miniaturized filtration device for the floating media of the upward and downward vertical flow circulating air type, characterized in that the ratio of h/H = 0.15 to 0.50. In paragraph 1 or 3
The vertical height V of the vertical circulation vertical partition wall 140 located between the upper and lower open spaces 142 and 144 is 1/2 of the height (H + h) of the filtration tank 100, and the vertical circulation vertical partition wall The height of the upper open space 142 from the upper end of the vertical part 110 to the coupling flange 112 of the vertical part 110, and the connection flange of the vertical reduction part 130 from the lower part of the vertical circulation longitudinal partition wall 140 ( The height of the lower open space 144 up to 134) is each 1/4 of the height (H+h) of the filtration tank 100, and a vertical flow circulation vertical partition wall 140 is installed at this position. Compact, miniaturized filtration device with downward vertical flow circulating air type flotation media. In paragraph 1 or 3
The air T-type horizontal supply pipe (150), which is formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), is installed in the vertical upper and lower circulation spaces (146) and (148), and its installation location is for vertical flow circulation. A compact and miniaturized filtration device for an upward/downward vertical flow circulating air type flotation media, which is located at 1/3 of the vertical height V at the lower end of the vertical partition 140. The filtered water outlet 114 is coupled to the outside and the strainer 115 is coupled to the center through hole of the coupling flange 112 at the top of the filtration tank (T), while the contaminated water is coupled to the bottom of the filtration tank (T). An inlet and an outlet for pollutants are formed, and in the separation and regeneration of the filter medium, the valve is closed to allow contaminated water and filter medium to flow in a sealed state in the filter tank (T), thereby removing contamination from the filter medium. In an optimized filter regeneration system that separates substances,
The vertical flow circulation vertical partition wall 140 installed in the vertical part 110 of the cylindrical filtration tank 100 is connected to the vertical upper and lower circulation spaces 146 and 148, and the upper and lower open spaces 142 and 144. Divided, the vertical upper and lower circulation spaces (146) (148) and the upper and lower open spaces (142) (144) are connected to each other to form a vertical cycle flow passage (C), and the vertical upper and lower circulation spaces (146) ) (148) is installed with an air T-type horizontal supply pipe (150a) (150b) formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), while air pressurized through the air supply pipe (160) is installed. The air is injected into the T-type horizontal supply pipes (150a) (150b), and at this time, an upward vertical flow (U) flows from the air upward discharge hole (156a) of the air T-type horizontal supply pipe (150a) installed in the vertical upstream circulation space (146). , and a downward vertical flow (D) is generated from the air downward discharge hole (156b) of the air T-type horizontal supply pipe (150b) installed in the vertical downstream circulation space (148), and the upward and downward vertical flow (U ) (D) is an upward and downward vertical circulation rotational flow (Vf) through a vertical cycle flow passage (C) consisting of vertical upper and lower circulation spaces (146) (148) and upper and lower open spaces (142) (144). is generated, and the contaminants attached to the flotation media (180) are separated by this upward and downward vertical circulation rotational flow (Vf), thereby regenerating the flotation media (180). Optimized filter media regeneration system using compact and miniaturized filtration device In paragraph 6
By adjusting the air supply, a sudden instantaneous shock flow is provided to the upward and downward vertical circulation rotational flow (Vf), thereby efficiently separating and regenerating the flotation media due to the rapid shock flow. Optimized filter media regeneration system using a compact and miniaturized filtration device for flotation media. In paragraph 6 or 7

A compact floating filter of the vertical flow circulation air type, characterized in that the upper and lower ends of the vertical circulation bulkhead (140) become streamlined wings (149) to smoothly achieve upward and downward vertical circulation rotational flow (Vf). Optimized filter regeneration system using miniaturized filtration device In paragraph 6 or 7
The air T-type horizontal supply pipe (150), which is formed by integrally forming a straight horizontal supply pipe (152) and an orthogonal horizontal supply pipe (154), is installed in the vertical upper and lower circulation spaces (146) and (148), and its installation location is for vertical flow circulation. By being located at 1/3 of the vertical height V at the lower part of the vertical bulkhead 140, the upward and downward vertical circulation flow (Vf) of the vertical cycle flow passage (C) is smoothly achieved, and the upward and downward vertical circulation rotation is achieved. Optimized filter media regeneration system using a compact, miniaturized filtration device for floating filter media of the upper and lower vertical flow circulating air type, which is characterized by ensuring that there are no blind spots of the flow (Vf) in the filtration tank (100).

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