KR100590628B1 - Pore size controllable filter - Google Patents

Abstract

The present invention is formed on the upper and lower filter hanger in the porous pipe, the filter is composed of a fiber filter which is wound around the porous pipe by a ring slid to the filter hanger according to the rotation of the upper filter hanger, compressed or released to relax the pore is controlled In the outer cylinder of the filter is formed a viewing window that can visually recognize the degree of contamination of the internal fibrous media, the fibrous media is hanged in a double layer on the filter media hanger, as the fibrous media of the fiber yarn is thinner toward the inside, When a multi-layered deep filtration layer is formed, and a porous tube inner cylinder is formed inside the porous tube, and the surface area of the porous tube is increased to form a filter having a large filtration capacity, the backwash amount is reduced by decreasing the internal volume of the porous tube. A pore-controlled fibrous media filter is characterized in that it reduces and shortens the backwash time.

According to the present invention, when composed of a multi-function device connected with a different type of filter, the strength of the hydraulic pressure is formed, it is possible to easily identify the damage or contamination of the internal fibrous media, while reducing the degree of contamination of the fibrous media filter performance Has the advantage of providing a pore-controlled fibrous media filter that can be fully utilized.

Multi-layer, deep, pore-controlled fibrous media filter, porous tube, flange, light plate

Description

Pore size controllable filter

1 is an external side view of a pore control type filter medium filter according to the present invention

Figure 2 is a partial cross-sectional view showing the internal structure of the air gap filter type filter medium filter according to the present invention

Figure 3 is a partial cross-sectional view showing the state of the fibrous media of the air gap filter type filter medium filter according to the present invention

Figure 4 is a partial cross-sectional view showing the assembly state of the see-through window of the air gap filter type filter medium filter in accordance with the present invention

Figure 5 is an external side view showing the structure of the hard plate of the air gap filter type filter medium filter according to the present invention

Figure 6 is a block diagram showing a mounting structure of the inner tube of the porous filter of the filter medium filter medium according to the present invention

Figure 7 is a top view of the filter media stool showing the shape of the filter media filter of the air gap filter type filter medium filter according to the present invention

Figure 8 is a side view of the fiber filter showing the fabric of the filter medium of the pore control type filter medium filter according to the present invention

* Explanation of symbols on main parts of drawings *

10: outer cylinder of the filter 10-1: top

10-2: bottom 11: flange

12: combination bar 13: raw water inlet

20: textile material 21: string

25 ring 30 porous tube

35: Jaejae Girl Stand 40: Inner Tube

45: communication tube 60: cylindrical viewing window

60-1: window type sight glass

120: O-ring 130: concentrate drain tube

140: valve 150: hard disk

600: transparent acrylic outer cylinder

The present invention is formed on the upper and lower filter hanger in the porous pipe, the filter is composed of a fiber filter which is wound around the porous pipe by a ring slid to the filter hanger according to the rotation of the upper filter hanger, compressed or released to relax the pore is controlled In the outer cylinder of the filter is formed a viewing window that can visually recognize the degree of contamination of the internal fibrous media, the fibrous media is hanged in a double layer on the filter media hanger, as the fibrous media of the fiber yarn is thinner toward the inside, When a multi-layered deep filtration layer is formed, and a porous tube inner cylinder is formed inside the porous tube, and the surface area of the porous tube is increased to form a filter having a large filtration capacity, the backwash amount is reduced by decreasing the internal volume of the porous tube. It relates to a pore-controlled fibrous media filter, characterized in that to reduce the backwash time.

In general, the pore-controlled fibrous media filter is a filter that controls the pores by winding the fibrous media around the perforated tube and pressing.

However, in the case of the pore-controlled fibrous media filter, the surface area of the porous tube is a major factor in determining the filtration capacity. In the large-capacity filter, the diameter of the multi-space is increased to increase the filtration area in order to increase the surface area of the porous tube.

At this time, as the volume inside the perforated tube increases, there is a problem of increasing the amount of backwashing time and backwashing time during backwashing by the inside of the perforated tube.

In addition, as the filter medium filter as described above may be considered as a composite device connected with other types of filters rather than driving itself, it is necessary to cope with hydraulic pressure, and since it is designed to allow easy replacement of the fiber filter, the internal fiber There is a problem that a simple identification means for damage or contamination of the media is required.

Meanwhile, in the case of the conventional fiber filter, raw water is introduced from the lower side and the sludge is floated to the upper portion, thereby collecting all of the sludge into the fibrous media, but considering the basic purpose of the filter, the sludge contained in the raw water is precipitated. It is noteworthy that it is not necessary to collect all the sludge in the fibrous media because it does not have to be included in the filtered raw water, it has the advantage of longer filter duration and improved filter water quality.

That is, in the pore-controlled fibrous media filter, the amount of sludge contained in the filtration raw water determines the backwash cycle, which is directly related to the replacement cycle of the fibrous media and is closely related to the operating performance and operating cost. Consideration should be given to ways in which the filtration performance can be sufficiently exerted while reducing the contamination.

In order to solve the above problems, in the large-capacity filter, when the surface area of the porous tube is increased, the pore-controlled fibrous media filter which improves the problem of increasing the backwash amount and the backwashing time by increasing the internal volume of the porous tube. It aims to provide.

It is also an object of the present invention to provide a pore-controlled fibrous media filter in which a load resistance against hydraulic pressure is formed when the multifunction apparatus is connected with another type of filter.

In addition, an object of the present invention is to provide a pore-controlled fibrous media filter in which a simple identification means for damage or contamination of the internal fibrous media is formed.

In addition, it is an object of the present invention to provide a pore-controlled fibrous media filter which can reduce the degree of contamination of the fibrous media and still exhibit sufficient filtration performance.

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In order to achieve the above object, the present invention is the upper and lower filter hanger is formed in the porous pipe, wound by the ring is slid to the porous pipe by the ring sliding to the filter hanger according to the rotation of the upper filter hanger, the gap is relaxed A filter composed of a fibrous media to be controlled, the filter comprising: an outer cylinder of the filter having a flange formed on top and bottom, respectively; A transparent acrylic outer cylinder inserted between the upper and lower outer cylinders; A coupling bar for coupling the flanges of the upper and lower outer cylinders to each other to bond the transparent acrylic outer and upper and lower outer cylinders; An O-ring inserted into upper and lower portions of the transparent acrylic outer cylinder, which faithfully contacts the upper and lower outer cylinders when fastened by the coupling bar and prevents leakage of raw water; It is configured, the air gap of the filter is formed by a transparent acrylic outer cylinder is characterized in that the pore-controlled fibrous media filter, characterized in that it can visually recognize the degree of contamination of the fibrous media inside the filter in a 360 ° direction.
In addition, the present invention is formed in the upper and lower media hanger is formed in the porous pipe, and is formed by a fibrous media that is wound around the porous pipe by a ring slid to the media hanger according to the rotation of the upper media hanger, or compressed and released to relax the void In the filter, forming a see-through window that can visually recognize the degree of contamination of the internal fibrous media in the outer cylinder of the filter, the fibrous media is hanged in multiple layers on the filter media hanger, but the fibrous media of the fibrous yarn is thinner toward the inside As a technical gist of the present invention, a pore-controlled fibrous media filter is characterized in that a multilayer deep filtration layer is formed.
In this case, the fibrous media is preferably a pore-controlled fibrous media filter characterized in that both sides of the fiber bundle wound in a circular manner are tied with a string provided with a ring to simplify production and to form a strong tensile strength.
The present invention is also formed in the upper and lower media hanger is formed in the porous pipe, the fiber media that is wound around the porous pipe by a ring slid to the media hanger according to the rotation of the upper media hanger, or compressed and released to relax the pore is controlled In the filter, a perforated tube is formed in the outer cylinder of the filter to visually recognize the degree of contamination of the internal fibrous media, and when the surface area of the perforated tube is increased to form a filter having a large filtering capacity inside the porous tube. The technical gist of the pore-controlled fibrous media filter is characterized by reducing the amount of backwashing and backwashing time by forming an inner cylinder to reduce the volume inside the porous tube.
Here, the inner tube is formed in the communication tube communicating with the filtration tank is stored on the bottom surface and the vent is formed on the upper surface, the raw water such as the level of the filtration tank is filled in the inner tube for the hydraulic pressure flowing through the porous tube It is preferable to be a pore-controlled fibrous media filter characterized by forming a yield strength.
The present invention is also formed in the upper and lower media hanger is formed in the porous pipe, the fiber media that is wound around the porous pipe by a ring slid to the media hanger according to the rotation of the upper media hanger, or compressed and released to relax the pore is controlled In the filter, a see-through window for visually recognizing the degree of contamination of the internal fibrous media is formed in the outer cylinder of the filter, and the raw water inlet of the filtration tank is formed at the top to allow the sludge contained in the incoming raw water to settle from the upper side to the lower side, The technical control of the pore-controlled fibrous media filter is characterized in that a valve for changing the flow of oil is formed at the inlet of the raw water inlet so that the incoming raw water is formed in a swirl flow around the perforated tube in the filter tank.
Hereinafter, the present invention will be described with reference to the accompanying drawings. In the following description, detailed descriptions of related well-known technologies or configurations will be omitted when it is determined that the subject matter of the present invention may unnecessarily obscure the subject matter of the present invention. .

The terms to be described below are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators, and the definitions should be made based on the contents throughout the specification for describing the present invention.

1 is an external side view of the pore-controlled fibrous media filter according to the present invention, Figure 2 is a partial cross-sectional view showing the internal structure of the pore-controlled fibrous media filter according to the present invention, Figure 3 is a pore-controlled fiber according to the present invention Figure 4 is a partial cross-sectional view showing a state of the filter medium of the filter medium, Figure 4 is a partial cross-sectional view showing the assembly state of the see-through window of the pore-controlled fiber media filter according to the present invention, Figure 5 is a hard plate of the pore-controlled fiber media filter according to the present invention Figure 6 is an external side view showing the structure, Figure 6 is a block diagram showing the mounting structure of the inner tube of the porous tube of the pore-controlled fibrous media filter according to the present invention, Figure 7 is the shape of the media hanger of the pore-controlled fibrous media filter according to the present invention Figure 8 is a plan view showing a filter media, Figure 8 is a fabric filter fabric of the pore control type filter media filter according to the present invention It is a side view of the fibrous media.

As shown in the drawing the present invention is formed by the upper and lower media hanger 35 is formed in the porous tube 30, by the ring 25 is slid to the media hanger 35 in accordance with the rotation of the porous tube (30) The present invention relates to a filter composed of a fibrous media 20 in which the pores are wound by being wound around the porous tube 30 or compressed or loosened.

In the above filter, filtration and backwashing are repeated periodically, and the backwashing cycle is not repeated at a predetermined time, but is changed depending on the degree of sludge collected in the fibrous media 20, that is, the degree of contamination of the filtration raw water. have.

Therefore, in order to determine the backwash time, it is also important to numerically determine the pressure gauge in the filter, but it is also important to directly determine the degree of contamination of the fibrous media 20 with the naked eye.

The present invention is characterized in that the viewing window 60 is formed on the outer cylinder 10 of the filter to visually recognize the degree of contamination of the inner fibrous media 20 as shown in FIG.

The see-through window is a window-type see-through window 60-1 having a window formed on a part of the filter outer cylinder or a part of the filter outer cylinder 10 by inserting a transparent acrylic outer cylinder 600 as a whole to check the state inside the filter at 360 degrees in all directions. It can be configured as a cylindrical viewing window 60.

In the formation of the cylindrical see-through window 60 as described above, a flange 11 is formed in each of the filter outer cylinders separated by the upper end 10-1 and the lower end 10-2, and between the flanges 11 of the upper and lower filter outer cylinders. After inserting the transparent acrylic outer cylinder 600 into, the flanges 11 may be formed by combining with the coupling bar 12.

At this time, the upper and lower ends of the transparent acrylic outer cylinder 600 is in close contact with the flange 11, the O-ring 120 is preferably coupled to prevent the leakage of raw water.

Meanwhile, in the present invention, the fibrous mediar 20 forming the fibrous layer is hanged in multiple layers on the mediar hung 35 as shown in FIGS. 2 and 3, but the fibrous mediar is thinned toward the inner side. As a result, a multilayered deep filtration layer is formed.

In other words, the multi media filter layer 20 is formed on the filter media 35 to increase the depth of the filtrate by differentiating the thickness of the fiber so that the voids can be made smaller toward the inside.

On the other hand, the fibrous media 20 is the end of the ring 25 in accordance with the rotation of the porous tube 30 is sliding along the media hanger 35, the media hanger 35 is the direction of rotation of the porous tube Therefore, it is preferable that the radial branches are formed to be inclined.

This configuration of the media hanger 35 has an advantage that the sliding movement is flexible by guiding the ring 25 movement path of the fiber media 20 more linearly according to the rotation of the porous tube 30.

In the present invention, since the fibrous media 20 as described above is a replaceable consumable material, the convenience of its manufacture is urgently needed.

To this end, the present invention, as shown in Figure 8 wound the fiber in the form of a bundle, by binding both sides of the fiber bundle with a string 21, the hook 25 is suspended, to simplify the production of the fibrous media 20 It is characterized in that the tensile strength is strongly formed.

On the other hand, the filter as described above increases the size of the inner porous tube 30 as well as the outer cylinder 10 of the filter as the filter capacity of the filter increases.

That is, since the surface area of the porous tube 30 is closely related to the filtration capacity, in the case of a large-capacity filter, a large porous tube 30 is formed therein, thereby increasing the volume of the porous tube, thereby increasing the amount of backwashing during backwashing and backwashing. There is a problem that the time is long.

In order to solve this problem, the present invention forms a porous tube inner cylinder 40 inside the porous tube 30 as shown in FIGS. 2 and 6, to form a filter having a large filtering capacity. When increasing the surface area of the, the internal volume of the porous tube 30 is to be reduced to reduce the backwash amount and backwash time.

By the way, in the case of the inner tube 40 of the porous tube is filled with air therein may be crushed by the hydraulic pressure to lose the filter itself.

In order to prevent this, the present invention forms a communication tube 45 in communication with the filtration tank in which the raw water is stored in the porous tube 40 to allow the raw water to be filled in the porous tube 40 through the porous tube 30. The strength of the hydraulic pressure flowing in is formed.

The communication pipe 45 is formed on the bottom surface of the porous pipe inner cylinder 40 so that the raw water in the filtration tank is filled with the same level so that the internal pressure is always formed if there is water in the porous pipe inner cylinder (40).

In the porous pipe inner cylinder 40 of the present invention, the communication pipe 45 is formed on the bottom surface of the porous pipe inner cylinder 40 to increase the water level, as shown in FIG. have.

Meanwhile, the filter of the same type as the filter of the present invention may be used as a single filter alone, or may be used as a hybrid device in which a filter such as an active carbon filter or a reverse osmosis filter is continuously combined.

In this case, the raw water is forcibly fed using a high pressure pump for filtration.

The present invention needs to be composed of a pressure-resistant strong type for use as such a composite filter, for this purpose it is preferable that the upper and lower parts of the outer cylinder of the present invention is formed of a hard plate 150 of high pressure bearing type.

In addition, in the prior art, the raw water inlet 13 of the filtration tank was formed at the lower side to allow the sludge to be suspended while being suspended in the upper layer.

However, in the above structure, since the sludge always floats and the sludge is collected by the fibrous media, there is a problem in that the backwashing time of the fibrous media 20 is urged.

In order to solve the above problems, the raw water inlet 13 is formed at the top to guide the sludge included in the incoming raw water to sink from the upper side to the lower side, the fibrous media 20 and the porous pipe 30. It is characterized by increasing the filtration efficiency by reducing the amount of sludge filtered through.

On the other hand, the raw water inlet 13 is formed with a valve 140 for changing the flow of oil at the inlet of the raw water inlet 13 so that the incoming raw water is formed in a swirl flow around the perforated tube in the filter tank.

The raw water introduced by the valve 140 is rotated while turning around the perforated tube 30 from the upper side to the lower side, wherein the large sludge is lowered, and the small sludge is evenly collected in the fibrous media surrounding the porous tube.

In addition, the bottom portion of the filter is characterized by increasing the backwashing effect by forming a concentrated liquid drain pipe 130 for draining the sewage sludge raw water to the outside to discharge the sludge raw water before the backwashing in advance.

The embodiments shown for the purpose of the present invention described above are only one embodiment in which the present invention is embodied, and it can be seen that various forms of combinations are possible to realize the gist of the present invention as shown in the drawings.

Therefore, the present invention is not limited to the above-described embodiments, and various changes can be made by any person having ordinary skill in the art without departing from the gist of the present invention as claimed in the following claims. It will be said that the technical spirit of this invention is to the extent possible.

According to the present invention described above, even if the surface area of the porous tube is increased, there is an advantage in that the pore-controlled fibrous media filter which reduces the backwashing amount and the backwashing time is reduced.

In addition, when composed of a multi-function combined with a filter of another type, there is an advantage that a pore-controlled fibrous media filter is formed that the strength of the hydraulic pressure is formed.

In addition, there is an advantage that a pore-controlled fibrous media filter provided with a simple identification means for damage or contamination of the internal fibrous media.

In addition, there is an advantage that a pore-controlled fibrous media filter which can reduce the degree of contamination of the fibrous media but can exhibit sufficient filtration performance.

In addition, the twist of the fibrous media is precisely and smoothly generated, and the filtrate formed by the fibrous media has an advantage of providing a pore-controlled fibrous media filter which is formed of a multilayered deep layer to improve the filtration quality.

Claims (12)

delete delete In the filter is composed of a fibrous media is formed in the upper and lower media hanger is formed, the fiber media that is wound around the porous tube by a ring slid to the media hanger in accordance with the rotation of the upper media hanger, compressed or loosened to adjust the voids, An outer passage of the filter, which is divided into upper and lower flanges, respectively; A transparent acrylic outer cylinder inserted between the upper and lower outer cylinders; A coupling bar for coupling the flanges of the upper and lower outer cylinders to each other to bond the transparent acrylic outer and upper and lower outer cylinders; An O-ring inserted into upper and lower portions of the transparent acrylic outer cylinder, which faithfully contacts the upper and lower outer cylinders when fastened by the coupling bar and prevents leakage of raw water; Consist of, A part of the outer cylinder of the filter is formed of a transparent acrylic outer cylinder, the pore-controlled fibrous media filter, characterized in that it can visually recognize the degree of contamination of the fibrous media inside the filter at 360 ° azimuth. In the filter is composed of a fibrous media is formed in the upper and lower media hanger is formed, the fiber media that is wound around the porous tube by a ring slid to the media hanger in accordance with the rotation of the upper media hanger, compressed or loosened to adjust the voids, In the outer cylinder of the filter to form a viewing window that can visually recognize the degree of contamination of the internal fibrous media, The fibrous filter is multi-layered on the filter media hanger, the fiber filter having a thinner thickness of the fiber yarn is walked toward the inside, thereby forming a multi-layered deep filter layer, characterized in that the filter medium filter medium. The method of claim 4 wherein the fibrous media is A pore-controlled fibrous media filter, characterized in that both sides of a circularly wound fiber bundle are hung and tied with a string provided with a ring to simplify production and to form a strong tensile strength. delete In the filter is composed of a fibrous media is formed in the upper and lower media hanger is formed, the fiber media that is wound around the porous tube by a ring slid to the media hanger in accordance with the rotation of the upper media hanger, compressed or loosened to adjust the voids, In the outer cylinder of the filter to form a viewing window that can visually recognize the degree of contamination of the internal fibrous media, When the surface area of the porous pipe is increased in order to form a filter having a large filtration capacity inside the porous pipe, a void is formed by reducing the volume of backwashing water and backwashing time by forming an inner cylinder to reduce the volume of the porous pipe. Controlled fibrous filter. The method of claim 7, wherein the inner tube inner tube is A communication tube communicating with a filtration tank storing raw water is formed on the bottom surface, and a vent is formed on the upper surface, thereby forming a load resistance for the hydraulic pressure flowing through the porous tube by filling raw water such as the level of the filtration tank in the inner tube. Pore-controlled fibrous media filter. delete delete delete In the filter is composed of a fibrous media is formed in the upper and lower media hanger is formed, the fiber media that is wound around the porous tube by a ring slid to the media hanger in accordance with the rotation of the upper media hanger, compressed or loosened to adjust the voids, A viewing window is formed on the outer cylinder of the filter to visually recognize the degree of contamination of the internal fibrous media. The raw water inlet of the filtration tank is formed at the top so that sludge contained in the incoming water is precipitated from the upper side to the lower side, and the raw water inlet is formed at the inlet of the raw water inlet so as to form a swirl flow around the perforated pipe inside the filtration tank. A pore-controlled fibrous media filter, characterized in that the valve to change the flow of oil is formed.

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