KR101257267B1 - Zigzag type fiber filter apparatus - Google Patents

Abstract

PURPOSE: A zigzag fiber filtering apparatus is provided to be able to be implemented without a picture frame type grid frame and to compress and release fiber residue to a zigzag form. CONSTITUTION: A zigzag fiber filtering apparatus comprises a cylindrical chamber(100); an upper plate(110) for fixing residue; a lower plate(120) for fixing residue; fiber residue(130); multiple support rods(150); support rod fixing members(160); multiple pressing bars(170); and a fiber residue air-gap controller. The fiber residue is fixed to the upper and lower plates for fixing residue. The multiple support rods are aligned to the horizontal direction in the outside of the fiber residue, and is perpendicular to the longitudinal direction of the fiber residue. The multiple support rods have a ring shape surrounding the fiber residue, and is aligned along the longitudinal direction of the fiber residue. The multiple pressing bars are installed inside of the fiber residue, and aligned to cross the support rods to the up and down direction. The pressing bar has an arc shape. Multiple pressing bars with an arc shape are combined to each support rod to form a ring shape. The multiple pressing bars forming a ring shape on each support rod are aligned to overlap with the adjacent pressing bar on the plane figure on the edge. The pressing bar is pushed to the support rod or taken out with the fiber residue air-gap controller to compress or release the fiber residue to a zigzag form, which forms filtration air-gap and back washing air-gap. Raw water introduced to a raw water inlet(101) of a chamber is filtered by passing the fiber residue and discharged to a treated water outlet(102).

Description

Zigzag type fiber filtration device {ZIGZAG TYPE FIBER FILTER APPARATUS}

The present invention relates to a fiber filter device, and more particularly, to a zigzag fiber filter device in which the fiber filter is zigzag-compressed and relaxed.

In general, filters have been developed to efficiently improve filtration and backwashing while automating the filtration process for filtering raw water and the backwashing process for backwashing internal filters.

On the other hand, in terms of the capability of the filter, there are very strict divisions between the fields requiring precise fine filtration and the fields requiring the filtration of large suspended solids. In the fields requiring the primary filtration of relatively large suspended substances, the filtration capacity is required. The emphasis is more on the efficiency of filtration and backwashing.

In addition, the field of filter technology still requires efficient and smooth conversion of the filtration process and backwashing process, and there is a continuous need for technology that can reduce the manufacturing cost without any trouble even if the process conversion is performed periodically and continuously. It is done.

In addition, there is a continuous need to provide a device capable of automating pore control of the fibrous media forming the filter layer for the automated process of the filter.

Domestic patent registration No. 540059, domestic patent registration No. 447651, domestic patent registration No. 590628, etc., the upper and lower ends of the fibrous media to be caught on the fibrous media hanger in order to control the filtering and cleaning pores of the fibrous media By moving the stool up and down, the filtering and cleaning pores of the fiber media are controlled.

The prior art as described above is very complicated apparatus for moving the fiber media hanger up and down.

On the other hand, domestic patent registration No. 924429 of the present inventor is to control the filtration pores and washing pores of the fibrous media by the fibrous media is compressed in a zigzag type or vice versa.

The present inventors propose a new improved form of the domestic patent registration No. 924429.

Domestic Patent Registration No. 924429 (October 23, 2009 registration)

The prior art of the present inventors uses a frame-like grid frame to zigzag the fibrous media.

The present inventors propose the present invention to implement a zigzag fiber filter without the frame grid frame.

In order to solve the above problems, the present invention, the raw water inlet and the treated water outlet is formed; A top plate for fixing the media having horizontally provided at an upper portion of the inside of the chamber and having a through hole formed at the center thereof; A lower plate fixing medium provided horizontally in the lower portion of the chamber; A fibrous media having an upper end fixed to the upper plate for fixing the media and the lower end fixed to the lower plate for fixing the media, and arranged in a shape surrounding the passage hole; A plurality of support rods disposed in a horizontal direction on the outer side of the fibrous media and orthogonal to a longitudinal direction of the fibrous media, and arranged in a plurality along the longitudinal direction of the fibrous media; A support rod fixing member provided to fix the support rod; A plurality of pressing rods provided inside the fibrous media and arranged to be staggered in the vertical direction with the supporting rods; A fiber media air gap controller connected to the pressing rod to push or pull the pressing rod toward the supporting rod side; It is made, including, by pressing or removing the pressing rod to the support rod side with the fibrous median air gap controller to compress or relax the fibrous media in a zigzag form to form a filter and back pores, raw water introduced into the raw water inlet The filtrate is passed through the filter medium, characterized in that discharged to the treated water outlet.

In the above, it is preferable that a plurality of air injection holes through which air is injected toward the fibrous media is formed in the lower plate fixing medium, and air supply means for supplying air to the air injection holes is provided.

In the above, the lower plate for fixing the media is a top plate of a cylindrical cylinder provided in the chamber, the support rod is a ring shape surrounding the fibrous media, the diameter of the air cylinder than the diameter of the ring formed by the support rod Small, the air supply means may be made to supply air to the reservoir.

In the above, the fibrous mediating air gap controller, the actuator provided in the chamber, the upper end is connected to the actuator and the middle portion is provided in the inner center of the fibrous media through the through hole of the upper plate fixing medium for driving the actuator Lifting bar to vertically move by, vertically installed on the lower plate for fixing the media, a plurality of auxiliary bar arranged in a shape surrounding the lifting bar, a plurality of girdles provided while varying the height of each of the auxiliary bar, One end is rotatably provided in the elevating bar and includes a plurality of hinge bars having a sliding slot in which the lever is slidably coupled to an intermediate portion thereof; The pressing rod is provided at the other end of the hinge bar to form an arc; The support rod is in the form of a ring surrounding the fibrous media; Lt; / RTI >

As described above, the present invention can implement a zigzag fiber filtration device without a frame grid.

1 is a conceptual longitudinal cross-sectional view of a zigzag fiber filter device according to a first embodiment of the present invention;
2 is a view seen from the AA standard of FIG.
Figure 3 is a view of the state omitted the fiber media in the state seen from the BB reference of Figure 1,
Figure 4 is a perspective view showing the arrangement of the support rod and the support rod fixing member in Figure 1,
Figure 5 is a perspective view showing a coupling state of the pressing rod and the hinge bar in Figure 1,
6 is a conceptual diagram showing an operating state of the fiber media air gap controller of FIG.
7 is an operation diagram when the apparatus of FIG. 1 is in filtration mode;
8 is an operation diagram when the apparatus of FIG. 1 is in the backwash mode;
9 is a conceptual longitudinal cross-sectional view of a zigzag fiber filter device according to a second embodiment of the present invention;
10 is an exploded cross-sectional view of an essential part of FIG. 9;
11 is a modification of the second embodiment,
12 is a conceptual longitudinal sectional view of a zigzag fiber filtration apparatus according to a third embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention in the drawings, portions not related to the description are omitted, and like reference numerals are given to similar portions throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

In addition, in the following drawings, the coupling of each member by a bolt or the like is omitted, and those skilled in the art will be able to properly adopt the bolt coupling, etc. for the assembly of each member without a description of these parts.

1 is a conceptual longitudinal cross-sectional view of a zigzag fiber filter device according to a first embodiment of the present invention, Figure 2 is a view as seen from the AA standard of Figure 1, Figure 3 is a fiber filter in the state seen from the BB standard of FIG. 4 is a perspective view showing an arrangement of the support rod and the support rod fixing member in FIG. 1, FIG. 5 is a perspective view illustrating a coupling state of the pressing rod and the hinge bar in FIG. 1, and FIG. 6 is FIG. Is a conceptual diagram showing an operating state of the fiber media air gap controller of FIG. 7 is an operation diagram when the apparatus of FIG. 1 is in a filtration mode, and FIG. 8 is an operation diagram when the apparatus of FIG.

The chamber 100 having the raw water inlet 101, the treated water outlet 102, and the backwash water outlet 103 is provided.

In the present embodiment, the raw water is introduced into the raw water inlet 101 of the chamber 100 in the filtration mode and then filtered from the fibrous media 130 and then discharged to the treated water outlet 102, and the raw water inlet 101 in the backwash mode. After the raw water (backwashing water) is introduced into the backwashing medium, the filtrate 130 is backwashed with the foreign matter to the backwashing water outlet 103.

As such, the inflow and discharge of raw water, backwash water, and the like of the chamber 100 is just one embodiment, and the inflow and outflow paths of the raw water, backwash water, and the like may be modified in various ways.

In the present embodiment, the upper plate 110 for fixing the media is provided in the upper portion of the chamber 100, and the lower plate 120 for the fixing of the media is provided in the lower portion of the chamber 100.

In addition, the chamber 100 has an air chamber 104 formed in the lower portion of the lower plate fixing medium 120, the filing medium 105 between the lower plate fixing medium 120 and the upper plate fixing medium 110 Is formed, the treatment water discharge chamber 106 is formed on the upper plate 110 for fixing the media.

The upper plate fixing medium 110 is provided horizontally and the through-hole 111 is formed in the center. The passage hole 111 is used not only as a passage for moving the water in the fibrous media room 105 to the treated water discharge chamber 106 but also as a space for installing the fibrous median air gap controller described later.

The lower plate fixing medium 120 is also provided in a horizontal state facing the upper plate fixing medium 110.

The lower plate 120 for fixing the media is formed with a plurality of air injection holes 121 through which air is injected from the air chamber 104 toward the fiber media 130 (see FIGS. 1 and 2).

Fiber filter 130 is for filtering foreign matter contained in the water, the upper end is fixed to the upper plate fixing medium 110 for fixing the lower end is fixed to the lower plate 120 for fixing the medium.

Therefore, the longitudinal direction of the fiber yarn of the fibrous media 130 is directed upward and downward.

In addition, the fibrous media 130 is disposed in a shape surrounding the passage hole 111. Therefore, the raw water introduced into the raw water inlet 101 is necessarily passed through the passage hole 111 after passing through the fibrous media 130.

In this embodiment, the through hole 111 is circular, and the overall shape of the fibrous media 130 is formed in a cylindrical shape with open top and bottom.

The method of fixing the upper and lower ends of the fibrous media 130 to the upper and lower plates 110 and 120 for fixing the media can be applied in a variety of ways, so a detailed description thereof will be omitted.

According to the arrangement form of the fibrous media 130, in the present embodiment, the plurality of air injection holes 121 are also arranged in a ring shape as a whole in plan view.

Meanwhile, an air compressor or a blower may be provided as the air supply means 140.

Air supply means 140 is for supplying air to the air injection hole 121, in this embodiment is to inject air to the air injection hole 121 through the associated pipe and the air chamber 104.

Hereinafter, referring to FIGS. 1 and 4, structures for supporting the outside of the fibrous media 130 will be described.

A support rod 150 disposed in the horizontal direction on the outer side of the fibrous media 130 is provided.

That is, the support rod 150 is disposed in a direction orthogonal to the longitudinal direction (up and down direction) of the fiber media 130.

In the present embodiment, the support rod 150 has a ring shape surrounding the fibrous media 130.

In addition, the support rod 150 is provided with a plurality of varying height.

A support rod fixing member 160 is provided to fix the support rod 150.

The support rod fixing member 160 includes a vertical support bar 161 and a radial support bar 162.

The upper end is fixed to the upper plate fixing medium 110 and the lower support bar 161 is fixed to the lower plate fixing medium 120 is provided in plurality (four in the present embodiment).

The vertical support bar 161 is provided on the outer side of the fibrous media 130, but is spaced apart from the fibrous media 130.

A plurality of radial support bars 162 are provided at different heights so as to extend radially inward from each vertical support bar 161.

Support rod 150 is fixed to the end of the radial support bar 162 as described above, in the present embodiment, one support rod 150 is in the form of being supported by four radial support bar 162.

The inner side of the fibrous media 130 is provided with a crimping rod 170 and a fibrous media gap controller.

Compression rod 170 is provided in plurality and is provided on the inner side of the fibrous media 130 is arranged so as to cross the support rod 150 in the vertical direction.

In addition, the fiber media air gap controller is provided on the pressing rod 170 to push or pull the pressing rod 170 toward the support rod 150.

Therefore, by pressing or removing the pressing rod 170 to the support rod 150 side with the fibrous median air gap controller, the fibrous media 130 may be compressed or relaxed in a zigzag form to form a filter or back pores in the fibrous media 130. .

In addition, in the state in which the fibrous media 130 forms the filtration pores, that is, the pressing rod 170 is pushed toward the support rod 150, the raw water introduced into the raw water inlet 101 passes through the fibrous media 130. After being filtered, it is discharged to the treated water outlet 102.

The detailed configuration of the fiber media air gap controller will be described.

The actuator 210 is provided outside the chamber 100. Actuator 210 may be a pneumatic cylinder.

An elevating bar 220 having an upper end connected to the actuator 210 is provided.

The elevating bar 220 is provided at the inner center of the fibrous media 130 through the passage hole 111 of the upper plate 110 for fixing the media.

In addition, the lifting bar 220 may vertically move up and down by driving the actuator 210.

On the other hand, a plurality of auxiliary bars 230 are placed around the lifting bar 220 (four in the present embodiment). Therefore, the plurality of auxiliary bars 230 are arranged in a shape surrounding the lifting bar 220.

Each auxiliary bar 230 is provided with a plurality of lever pins 240 with different heights.

Hinge bar 250 is coupled to the lever pin 240 and the lifting bar 220.

One end of the hinge bar 250 is rotatably provided at the elevating bar 220, and a sliding slot 251 to which the lever pin 240 is slidably coupled is formed in the middle portion.

The hinge bar 250 is provided while varying the height of the elevating bar 220 according to the height of the corresponding support bar 150, and also a plurality of hinge bars 250 are provided for each support bar 150.

The other end of each hinge bar 250 is provided with a pressing rod 170, the pressing rod 170 has an arc shape. That is, the intermediate portion of the arc shape of the pressing rod 170 is fixed to the hinge bar 250.

A plurality of pressing rods 170 corresponding to one supporting rod 150 (in this embodiment, four pressing rods 170 correspond to one supporting rod 150) is formed around the entire inner circumferential surface of the fibrous media 130. The total of the length of the four pressing rods 170 so as to be compressed to be larger than the circumferential length of the inner peripheral surface of the fibrous media 130.

That is, two pressing rods 170 facing each other among the four pressing rods 170 corresponding to one support rod 150 are positioned at the upper portion, and the other two pressing rods 170 facing each other are positioned at the lower portion. Thus, the four pressing rods 170 overlap the edges of the adjacent pressing rods 170 in plan view (see FIG. 3), but do not interfere with each other because they differ in height. Due to this structure, the four pressing rods 170 are capable of pressing the entire inner circumferential surface of the fibrous media 130.

The operation of the present embodiment as described above will be described.

First, the filtration mode will be described.

The actuator 210 drives to elevate the elevating bar 220 upward.

As a result, each hinge bar 250 is in a state in which the intermediate part is supported by the lever pin 240, so that the hinge bar 250 is opened, and thus, the pressing bar 170 moves toward the fiber media 130. do.

By the pressing rod 170 and the support rod 150 fixed in advance, the fiber filter 130 is compressed in a zigzag form (longitudinal section form), thereby forming a filtration void.

On the other hand, the raw water is introduced into the raw water inlet 101, the foreign matter is filtered through the fibrous media 130, after which the raw water is discharged to the treated water outlet (102).

Next, the backwash mode will be described.

The actuator 210 drives to elevate the elevating bar 220 downward.

As a result, each of the hinge bars 250 is in a state in which the middle portion thereof is supported by the lever pin 240, and thus the hinge bars 250 are in the shape of being retracted, and thus the pressing rods 170 are moved away from the fibrous media 130. Will be moved to.

Therefore, the fibrous media 130 is changed to a relaxed state and forms a backwash void.

Meanwhile, air is supplied from the air supply unit 140 and air is injected from the air chamber 104 to the air injection hole 121. The air injected from the air injection hole 121 is to shake off the fibrous media 130 so that foreign matter accumulated in the fibrous media 130 is more easily separated.

In addition, the backwash water is introduced from the raw water inlet 101 and discharged to the backwash water outlet 103 together with the foreign matter shaken from the fibrous media 130.

As described above, the present embodiment implements a zigzag fiber filter with a very simple structure without using a lattice frame.

Next, a second embodiment of the present invention will be described.

9 is a conceptual longitudinal cross-sectional view of a zigzag fiber filter device according to a second embodiment of the present invention, and FIG. 10 is an exploded cross-sectional view of an essential part of FIG. 9.

In the present embodiment, the same parts as in the first embodiment will be omitted.

The chamber 100 is divided into a filtrate chamber 105 and a treated water discharge chamber 106 by the upper plate 110 for fixing the media.

In addition, the inside of the fiber filter chamber 105 is provided with a cylindrical air cylinder 180, the upper plate of the air cylinder 180 is to form a lower plate 120 for fixing the media. That is, the lower plate 120 for fixing the media forms a part of the air reservoir 180.

In addition, the lower plate of the air cylinder 180 is formed with an air injection passage 181 extending downward. Air supply means 140 is connected to the air injection passage 181 may be supplied with air. Therefore, the air supplied by the air supply means 140 may be introduced into the air reservoir 180 along the air injection passage 181, and then air may be injected toward the fibrous media 130 through the air injection holes 1210.

In addition, a hole for the air injection passage 181 is formed in the lower portion of the chamber 100.

Such a structure can be made very simple as shown in FIG.

That is, the support rod 150 and the support rod fixing member 160 are prepared in advance in the chamber 100.

Next, the air reservoir 180, the fibrous media 130, the auxiliary bar 230, the pressing rod 170, the hinge bar 250, the elevating bar 220, the upper plate 110 for fixing the media in the form of one unit module After the fabrication is made by inserting the chamber 100 from the upper side to the lower side and then the assembly is very simple.

In this case, the diameter of the air reservoir 180 should be smaller than the diameter of the ring formed by the support rod 150 to be inserted downward from the top of the chamber 100.

11 is a modification of the second embodiment.

This modification is substantially the same except that the air cylinder 180 is installed spaced apart from the lower portion of the chamber 100 as compared with FIG.

12 is a third embodiment according to the present invention.

Also in this embodiment, the air cylinder 180 is provided in the lower portion of the inside of the chamber 100, and the air injection passage 181 of the air cylinder 180 is formed to penetrate the side wall of the chamber 100.

In addition, a relatively large hole is formed in the lower portion of the chamber 100, and the lower plate 182 for the air cylinder blocks the hole, and the lower plate 182 for the air cylinder forms a part of the air cylinder 180.

Such a structure makes it easy to clean the inside of the reservoir 180 by separating the lower plate 182 for the reservoir.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the embodiments described above are intended to be illustrative, but not limiting, in all respects. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: chamber 101: raw water inlet
102: treated water outlet 103: backwash water outlet
104: air chamber 105: textile media room
106: treatment water discharge chamber
110: top plate for fixing the media 111: through hole
120: lower plate for fixing the media 121: air injection hole
130: fiber filter 140: air supply means
150: support rod
160: support bar fixing member 161: vertical support bar
162: radial support bar
170: crimp rod
180: air cylinder 181: air injection passage
200: fiber media air gap controller
210: actuator 220: lifting bar
230: auxiliary bar 240: lever pin
250: hinge bar 251: sliding slot

Claims (4)

A cylindrical chamber in which at least a raw water inlet and a treated water outlet are formed;
A top plate for fixing the media having horizontally provided at an upper portion of the inside of the chamber and having a through hole formed at the center thereof;
A lower plate fixing medium provided horizontally in the lower portion of the chamber;
An upper end of which is fixed to the upper plate fixing medium and a lower end of which is fixed to the lower plate fixing medium, wherein the fibrous medium is disposed while forming a circle in a shape surrounding the passage hole;
A plurality of support rods arranged in a horizontal direction on the outer side of the fibrous media and orthogonal to the longitudinal direction of the fibrous media, and in a ring shape surrounding the fibrous media, and arranged in plural along the longitudinal direction of the fibrous media;
A support rod fixing member provided to fix the support rod;
A plurality of pressing rods provided inside the fibrous media and arranged to be staggered in the vertical direction with the supporting rods;
A fiber media air gap controller connected to the pressing rod to push or pull the pressing rod toward the supporting rod side;
And,
The pressing rod has an arc shape, and a plurality of arc-shaped pressing rods are combined with each supporting rod to form a ring, and the plurality of pressing rods having a ring shape with respect to each supporting rod overlap the neighboring pressing rods with their edges in plan view. Placed;
Pressing or removing the pressing rod to the support rod side with the fibrous median air gap controller to compress or relax the fibrous media in a zigzag form to form filter pores and back pores,
The raw water introduced into the raw water inlet is filtered while passing through the fiber filter and discharged to the treated water outlet.
The method of claim 1,
A plurality of air injection holes are formed in the lower plate for fixing the filter medium to the air is injected toward the fibrous media, the air supply means for supplying air to the air injection hole is provided with a zigzag fiber filter.
3. The method of claim 2,
The lower plate fixing medium is a top plate of a cylindrical cylinder provided in the chamber, the diameter of the reservoir is smaller than the diameter of the ring formed by the support rod, the air supply means is characterized in that for supplying air to the reservoir Zigzag type fiber filtration device.
The method of claim 1,
The fibrous median air gap controller is an actuator provided in the chamber, the upper end of which is connected to the actuator, and an intermediate part is provided in the inner center of the fibrous media by vertically moving by driving the actuator through the through hole of the upper plate fixing medium. Lifting bar to move, vertically placed on the lower plate for fixing the media, a plurality of auxiliary bars arranged in a shape surrounding the lifting bar, a plurality of lever pins are provided while varying the height of each of the auxiliary bar, one end of the lifting A plurality of hinge bars provided on the bar to be rotatable and formed with a sliding slot in which the lever is slidably coupled to the middle part; The pressing rod is provided at the other end of the hinge bar; Zigzag-type fiber filtration device characterized in that.

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