KR101476888B1 - Pore control fiber filter excluding strainer - Google Patents

Abstract

The present invention relates to a porous control fiber filter without a strainer, and more particularly, to a porous control fiber filter having no strainer, more specifically, The fiber filter of the present invention is characterized in that the fiber filter of the present invention is a fiber filter which does not require an inner strainer of a fiber filter because the fiber filter material itself acts as a strainer, It has the effect of improving productivity and cost reduction. It also has the effect of improving the quality of filtration by making the distribution of air gap constant by tightening the middle part of the fiber at each end of the filter by using a fiber ring for the same diameter or different diameters.

Description

[0001] PORE CONTROL FIBER FILTER EXCLUDING STRAINER [0002]

The present invention relates to a porous control fiber filter without a strainer, and more particularly, to a porous control fiber filter having no strainer, more specifically, The present invention relates to a void control fiber filter that does not require an inner strainer of a fiber filter as the fiber filter material itself serves as a strainer.

Generally, a filter is a device for draining clean treated water by filtering the contaminated raw water with a filter, and it is becoming larger and larger for filtration of a large river and filtration of a factory wastewater.

As the filter used herein, a pore-controlling fiber filter (PCF filter) may be exemplified. In the pore-controlling fiber filter, a fiber yarn having fine filaments is bundled into bundles and placed in a flowing path to be used as a filtration material This is called fiber media. The fibrous filter material has a merit that the pores formed by the filament are easily controlled by physical control, so that the filtration performance is excellent, and the filter is easy to clean and has a long life.

Particularly, it has been proved that the removal efficiency of SS and BOD by particle size is superior to other filtration methods.

In the form of the air gap control fiber filter, the fiber filter material is twisted around the strainer to form micro voids, or the fiber filter material uniformly disposed around the strainer is pulled up to the upper side so as to compress the micropores There is a type which is formed by filtration.

However, since such a conventional air gap control fiber filter is required to have a strainer essentially inside the fiber filter media, there is a problem that it is difficult to process a large capacity due to the limitation of the strainer size and the filtration equipment becomes complicated. In addition, there is a problem that the backwash efficiency is lowered because the free activity of the fiber filter material is limited due to the strainer even during backwashing.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and one object of the present invention is to provide a fiberglass filter, To provide a void control fiber filter in which an inner strainer is not required by making the compressed fiber filter material itself become a inner tube.

Another object of the present invention is to provide a cavity control fiber filter in which the ends of the fiber filter media are staggered so that the fiber media is twisted at an intersection when the fiber filter media is pulled upward.

According to an aspect of the present invention, there is provided a water treatment system comprising: a cylindrical filtration tube communicating with a raw water inflow pipe and a reverse water discharge pipe at an upper side and a process water discharge pipe and an air inflow pipe at a lower side; A first end inner shrink tightening ring, a first end outer tightening tightening ring, a second end inner tightening tightening ring, and a lower fiber inner wall forming plate, A filtration means formed to surround the filtration means; A driving unit driven by the cylinder and including a piston for pulling up the fiber filter material by pulling up by the pulling motion; An upper filter fixing plate fixed to the piston inside the filtration tube and receiving a pulling motion of the piston at an upper end outside the filtration means and having a fixing portion in a spiral direction within a radius smaller than a radius of the upper fiber inner tube forming plate at a center thereof; And a lower filter fixing plate fixed to the outside of the bottom of the filtration means inside the filtration tube and provided with fixing portions in a spiral direction within a radius range smaller than the radius of the lower fiber inner tube formation plate at the center thereof, .

The strainer-free air control fiber filter according to an embodiment of the present invention is characterized in that the diameter of the outer expansion throttling ring is greater than or equal to the diameter of the inner shrinking throat ring and the fiber media is disposed along the inner circumferential surface of the inner shrinking throat ring And is disposed in a zigzag fashion in the upward and downward directions by being disposed along the outer circumferential surface of the external expansion tightening ring.

In the airless control fiber filter without strainer according to an embodiment of the present invention, the inner shrink tightening ring and the outer expanding tightening ring can be adjusted in the upward and downward directions, and the inner shrink tightening ring and the outer expanding tightening ring So that the filtration means can be formed in a plurality of stages.

The strainer-free cavity control fiber filter according to an embodiment of the present invention is characterized in that a micro-round bending is formed on the inner circumferential surface of the inner shrink tightening ring and a micro-round bending is formed on the outer circumferential surface of the outer expanding tightening ring .

The strainer-free air gap control fiber filter according to an embodiment of the present invention is characterized in that the fiber filter material comprises a plurality of stages.

According to another aspect of the present invention, in the fiber filter having the above-described structure, the fiber material of the first stage is constituted by the left diagonal line, the fiber material of the second stage is formed by the right diagonal line, Is connected vertically with a left diagonal line or the like, thereby pulling the fiber filter material upward, and the fiber filter material is twisted at an intersection without a rotating mechanism.

According to the air-gap control fiber filter without strainer according to the present invention, the standardized upper and lower fiber inner tube forming plates and rings using metal, engineering plastic and the like are used, thereby improving the productivity and reducing the cost.

In addition, it has an effect of improving the filtration water quality by making the distribution of the pores constant by tightening the middle part of the fibers of each stage of the filter by using the ring for the same or different diameters.

Also, since there is no strainer, it is effective to improve backwash efficiency by increasing free fiber activity during backwash.

In addition, the height of the first stage of filtration is 1 ~ 3m, so that the height of the filter can be overcome to maximize the processing capacity per unit site.

In addition, micro-round bending is imparted to the fiber-contacting portion of the fiber-reinforced plastic sheet and the fiber-reinforced ring to prevent the fibers from being sagged during filtration and to suppress the fiber widening phenomenon during the injection of the drug.

In addition, it is possible to increase the sales and value-added by selling one type including piping because it is possible to handle large volume by adjusting the processing capacity by diameter and single number without multi type and it is possible to standardize by diameter and number of steps (filter, piping etc.) .

In addition, UF can be assembled locally with standardized filter parts like the UF, which reduces the cost of logistics and field installation.

According to the strainer-free air control fiber filter according to another embodiment of the present invention, by crossing each end of the fiber filter media without a rotating mechanism, performance can be improved as compared with a fiber filter having an outer fiber layer formed in one direction, There is an effect of suppressing the fiber widening phenomenon that occurs.

1 is a cross-sectional view of a strainer-free void control fiber filter according to an embodiment of the invention.
2 is a perspective view of filtration means in a strainer-free air control fiber filter according to an embodiment of the present invention.
Fig. 3 is a perspective view showing the internal structure of the filtration means according to Fig. 2;
4 is a perspective view of a strainerless void control fiber filter according to another embodiment of the present invention.
5 is an explanatory view showing a method of fixing a fiber filter material in the fiber filter according to FIG.
6 is a sectional view showing a fixed state of the fiber filter media.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known general functions or configurations will be omitted.

FIG. 1 is a cross-sectional structural view of a strainer-free air control fiber filter according to an embodiment of the present invention, FIG. 2 is a perspective view of filtration means of the present invention, and FIG. 3 is a cross- to be.

1 and 2, the strainer-free air control fiber filter according to the present invention includes a filter unit 100, a filtration unit 200, a pulling unit 300 formed by a cylinder 310 and a piston 320, And includes a filter fixing plate 400 and a lower filter fixing plate 500.

As shown in FIG. 1, a raw water inlet pipe 10 having a raw water valve 11 for on / off control of raw water inflow is disposed at the upper end of the filtration cylinder 100 of the present invention and a reverse water discharge valve 21 are connected.

The raw water inlet pipe 10 and the reverse water drainage valve 21 may be independently connected in parallel on the upper side of the filtration tube 100 regardless of whether they are connected to one another by a T-shaped pipe as shown in FIG. And must have an external path independently controlled by the raw water valve (11) and the reverse water drain valve (21).

That is, the raw water inlet pipe 10 and the backwatering water discharge pipe 20 are formed on the upper side of the raw water receiving tube 100 in the same manner, but the raw water valve 11 and the reverse water drain valve 21 The path is selected by driving.

The lower side of the filtration tube 100 communicates with the air inflow pipe 40 and the lower air inflow pipe 40 is also controlled to be on and off by driving the air supply valve 41.

The filtration means 200 of the present invention is disposed inside the filtration tube 100 and includes an upper fiber inner tube forming plate 210, a first end inner shrink tightening ring 220, a first end outer expansion tightening ring 230, A second-stage inner shrink tightening ring 240 and a lower fiber inner-tube forming plate 250, and a fiber filter media 260 is formed around these. At this time, the fiber filter media 260 are disposed along the inner circumferential surface of the inner shrinking tightening rings 220 and 240 and arranged along the outer circumferential surface of the outer expanding tightening ring 230, thereby being arranged in a zigzag fashion in the upward and downward directions. Accordingly, when the fiber filter media 260 is pulled up and pressed, the fiber filter media 260 itself acts as a inner barrel, so that the inner strainer is not necessary. The diameter of the outer expansion thrust ring 230 may be greater than or equal to the diameter of the inner shrinkage thrust rings 220 and 240. [ The lower fiber inner wall forming plate 250 is formed at a central portion thereof and is connected to the process water pipe 30.

According to an embodiment of the present invention, fine round bending (A, B) is formed on the inner circumferential surface of the inner shrinking tightening rings (220, 240) and the portion of the outer circumferential surface of the outer expanding tightening ring Thereby preventing the fibers from leaning during filtration and suppressing the fiber widening phenomenon when the medicines are injected.

The inner shrink tightening rings 220 and 240 and the outer expanding tightening ring 230 are coupled to the shaft 270 by a coupling means such as a bolt and are adjustable in the upward and downward directions. In addition, the inner shrink tightening rings 220 and 240 and the outer expanding tightening ring 230 can be additionally installed, so that the filtration means 200 can be formed in a plurality of stages. By this, it is possible to increase the sales and value-added by selling one type including piping, because it is easy to handle large volume by adjusting the processing capacity of diameter and single number without multi type and can standardize by diameter and number of steps (filter, piping, etc.).

FIG. 4 is a perspective view illustrating a filtration unit 200 of a fiber filter according to another embodiment of the present invention. FIG. 5 illustrates a method of fastening the fiber filter media 260 in the filtration unit 200 of FIG. Fig. 4 to 5, in the filtration means 200, the fibrous filter media 260 of the first stage has a left diagonal line, the fibrous filter media 260 of the second stage has a right diagonal line, the fibrous filter media 260 of the third stage Are vertically connected by a left diagonal line or the like to pull the fiber filter media 260 upward, the fiber filter media 260 are twisted at an intersection without a rotating mechanism. That is, the fiber material 260 of the first stage is fixed at the upper and lower positions in the order of 1-6, 2-7, 3-8, etc., and the fiber material 260 of the second stage is fixed at 1'-8 ' 3 ', 5', and so on, and the fiber material 260 of the third stage is fixed in the order of 1 '' - 6 '', 2 '' - 8 '' or the like in the upward and downward directions, the fiber filter media 260 at the respective ends are twisted at an intersection, so that the performance can be improved as compared with the fiber filter having the fiber layer in one direction. It is possible to suppress the fiber widening phenomenon.

The pulling means 300 includes a cylinder 310 and a piston 320. The cylinder 310 is fixed to the upper portion of the outside of the filtration cylinder 100 by a support base 330. The movement of the piston 320 by the cylinder 310 may be performed by a simple linear motion, or alternatively by a rotary cylinder in which linear motion and rotation are similar.

The upper filter fixing plate 400 of the present invention is a portion which is fixed to the piston 320 at an upper end of the upper portion of the filtration means 200 in the filtration tube 100 and receives the pulling motion of the piston 320, The lower filter medium fixing plate 500 is a portion fixed to the outside of the bottom of the filtration means 200 inside the filtration tube 100.

6, the upper and lower ends of the fiber filter media 260 of the present invention are fixed to the upper filter media 400 and the lower filter media 500 to pull the piston 320, Thereby forming a filtration gap. On the other hand, the spiral radial fixing units 410 and 510 are formed on the fixing plates 400 and 500 of the upper and lower filter media to fix the fiber filter media 260. The upper filter fixing plate 400 is provided with a fixing portion 410 in a spiral direction within a radius smaller than the radius of the upper fiber inner tubular plate 210 and a lower fiber inner tubular plate 250 is fixed to the lower filter fixing plate 500, The fixing portion 510 of the spiral direction is provided within a radius range smaller than the radius of the spiral direction. Accordingly, when the piston 310 pulls the upper filter seat 400 upwards, the fiber filter media 260 is pressed inward while being pressed inward to serve as an inner tube.

1, an air distribution plate 42 for dispersing and distributing the air introduced through the air inlet pipe 40 to the fiber filter media 260 is formed on the lower side of the lower filter medium fixing plate 500 .

The air distribution plate 42 is used for uniformly dispersing the air to be blown into the fiber filter media 260. The air distribution plate 42 may have various shapes such as a plurality of diaphragms and a plurality of through holes.

Hereinafter, the operation of the strainer-free cavity control fiber filter according to the present invention will be described.

The raw water valve 11 is closed and the backwash water drain valve 21 and the air supply valve 41 are closed so that the raw water inflow pipe 10, the filtration means 200, the process water drainage pipe 40, When the path is formed, raw water flows into the filter bag 100.

The introduced raw water is filtered at the fiber filter media 260 and converted into treated water and moved into the filtration means 200 and drained through the treated water drainage pipe 30 at the bottom of the filtration means 200. At this time, the filtering ability of the fiber filter media 260 is determined by the pores formed by the fiber filter media 260, and the pores are formed by the tensile tension of the fiber filter media 260.

In the present invention, the tensile tension of the fiber filter media 260 is formed by the movement of the piston 320 of the pulling means 300. That is, when the piston 320 rises, the upper filter fixing plate 400 fixed to the piston 320 pulls the fiber filter media 260, thereby forming a tensile tension. The tensile tension of the fiber filter media 260, Thereby forming a filtration gap.

Hereinafter, the backwashing process of the fiber filter according to the present invention will be described.

The raw water valve 11 of the air gap control fiber filter without the strainer is closed and the backwash water drain valve 21 is opened to form the treatment water drainage pipe 30, the filtration means 200 and the retrograde water drainage pipe 20 Thereby forming a backwash path.

The water introduced through the drain pipe 30 is blown into the fiber filter media 260 through the filtration means 200 to wash the fiber filter media 260 and clean the fiber filter media 260 And is discharged to the outside through the reverse water discharge pipe 20.

When the backwashing is performed, the piston 320 of the driving means 300 is lowered to remove the tension of the fiber filter media 260, whereby the fiber filter media 260 can be easily washed into the water jetted from the filtration means 200 It is vibrated, rubbed and cleaned.

At this time, air is blown from the bottom of the fiber filter media 260 through the air inlet pipe 40 (the air distribution plate 42 is provided on the bottom to uniformly spray air on the fiber filter media) Backlash can be effectively achieved. Particularly, in the air gap control fiber filter without the strainer according to the present invention, since there is no strainer in the inside, the free activity of the fiber filter media 260 is increased, and the backwashing efficiency can be greatly improved.

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. This will be obvious.

100: filter bag 200: filtration means
210: upper fiber inner tube forming plate 220: first inner shrinkage tightening ring
230: External expansion tightening ring 240: Second internal shrinkage tightening ring
250: Lower fiber inner tube forming plate 260:
300: pulling means 310: cylinder
320: piston 400: upper filter seat fixing plate
500: Lower filter media fixing plate

Claims (8)

The upper side communicates with the raw water inflow pipe and the reverse water discharge pipe, and the lower side communicates with the treated water discharge pipe and the air inflow pipe;
A first end inner shrink tightening ring, a first end outer tightening tightening ring, a second end inner tightening tightening ring, and a lower fiber inner wall forming plate, A filtration means formed surrounded by the filtration means;
A cylinder fixed by an upper part of the outer side of the filtration cylinder, and a piston driven by the cylinder and pulling up the fiber filter material by pulling up;
An upper filter fixing plate fixed to the piston inside the filtration tube and receiving a pulling motion of the piston at an upper end outside the filtration means and having a fixing portion in a spiral direction within a radius smaller than a radius of the upper fiber inner tube forming plate at a center thereof; And
And a lower filter fixing plate fixed to the outside of the bottom of the filtration means inside the filtration tube and provided with fixing portions in a spiral direction within a radius range smaller than the radius of the lower fiber inner film forming plate at the center,
In the filtration means, when the fiber material of the first stage is connected in the left diagonal direction, the fiber material of the second stage is connected to the right diagonal line, and the fiber material of the third stage is vertically connected in the left diagonal direction, A strainer-free cavity control fiber filter characterized by being twisted.
The strainer-free air control fiber filter according to claim 1, wherein the diameter of the outer expansion throttling ring is greater than or equal to the diameter of the inner shrink throttle ring.
The fiber control apparatus according to claim 1, characterized in that the fiber filter material is disposed along the inner circumferential surface of the inner shrink tightening ring and arranged in a zigzag fashion in the upward and downward directions by being disposed along the outer circumferential surface of the outer expanding tightening ring filter.
The strainer-free air control fiber filter according to claim 1, wherein the inner shrink tightening ring and the outer expanding tightening ring are adjustable in the upward and downward directions.
The strainer-free air control fiber filter according to claim 1, wherein the inner shrink tightening ring and the outer expanding tightening ring can be additionally installed so that the filtration means can be formed in a plurality of stages.
The strainer-free air control fiber filter according to claim 1, wherein the inner shrink tightening ring has a micro-round bend formed on an inner peripheral surface thereof, and the outer expansion tightening ring has a micro-round bend on an outer peripheral surface thereof.
The strainer-free air control fiber filter according to claim 1, wherein the fiber filter material comprises a plurality of stages.
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