KR20140071617A - Filtering Apparatus - Google Patents

Abstract

Provided is a filtering apparatus with a simplified structure. The filtering apparatus according to the present invention includes a frame structure, and a hollow fiber membrane module installed in the frame structure, wherein the hollow fiber membrane module includes: a first header having a first collecting space; a second header having a second collecting space, and a hollow fiber membrane disposed between the first and second headers. The frame structure includes: vertical members arranged parallel to the hollow fiber membrane of the hollow fiber membrane module in longitudinal directions thereof; cross members supported by the vertical members, an arranged perpendicular to the first header, the second header, and the hollow fiber membrane respectively in longitudinal directions thereof, wherein at least one of the cross members are pipes communicating with the first or second collecting space.

Description

[0001]

The present invention relates to a filtration device, and more particularly, to a filtration device having a simplified structure.

As a water treatment method for purifying contaminants from a fluid, there is a method using heating or phase change or a method using a filtration membrane.

Since the desired quality of water can be stably obtained depending on the pore size of the filtration membrane, the method using the filtration membrane is advantageous in that the reliability of the process is higher than the method using heating or phase change. Further, when a filtration membrane is used, operation such as heating is not required, so that microorganisms can be prevented from being affected by heat in a separation step using microorganisms.

One of the separation methods using a filtration membrane is a method using a hollow fiber membrane. Traditionally, hollow fiber membranes have been widely used in the field of microfiltration such as sterile water, drinking water, and ultrapure water production. Recently, however, they have been used for treating sewage / wastewater, solid-liquid separation in septic tanks, removal of suspended solid (SS) Filtration of industrial water, filtration of pool water, and the like.

The filtration apparatus using the hollow fiber membrane can be classified into the submerged filtration apparatus and the pressurized filtration apparatus according to the operation mode.

Korean Patent Registration No. 10-2009-0043638 (hereinafter referred to as "Prior Art") disclosed on May 7, 2009 discloses a submerged filtration apparatus.

Prior art filtration devices include a rectangular parallelepiped frame structure and a hollow fiber membrane module mounted therein.

The frame structure includes four vertical members and four cross bars, each supported by them.

The prior art filtration apparatus further includes a collecting pipe and lower connectors for respectively receiving the filtered water discharged through the first and second headers of the hollow fiber membrane module. The collector pipes and the lower connectors are coupled to the rear upper crossbar and the rear lower crossbar, respectively.

In addition, the prior art filtration device further comprises a plurality of vertical tubes for fluidly communicating the collecting tube with the lower connectors.

A plurality of air diffusers for cleaning the hollow fiber membrane module exist in the lower part of the hollow fiber membrane modules, and the air filtering device of the prior art has an air supply pipe for supplying air to the plurality of air diffusers through an air dispersion pipe .

As outlined above, according to the prior art, the four vertical members and the four cross bars, which are the main components of the frame structure, do not function at all as a passage for the flow of filtered water and / or air, Only the function of supporting the module is performed. That is, since additional components for the flow of filtered water and air, such as collectors, lower cutters, vertical tubes, and air feed tubes, must be further provided, prior art filtration devices have been difficult to manufacture due to their complicated structure , Which led to an increase in the unit price.

Accordingly, the present invention is directed to a filtration device capable of avoiding problems due to limitations and disadvantages of the related art.

One aspect of the present invention is to provide a filtration apparatus having a simplified structure.

Other features and advantages of the invention will be set forth in the description which follows, or may be learned by those skilled in the art from the description.

According to an aspect of the present invention, there is provided a frame structure; And a hollow fiber membrane module mounted within the frame structure, the hollow fiber membrane module comprising: a first header having a first collecting space; A second header having a second catch; And a hollow fiber membrane between the first and second headers, wherein the frame structure comprises: vertical members having a longitudinal direction parallel to the hollow fiber membrane of the hollow fiber membrane module; At least one of the cross members being supported by the vertical members and having a longitudinal direction perpendicular to the first and second headers and the hollow fiber membrane respectively, 1 or a pipe communicating with the second collecting part.

Wherein the vertical members comprise two front vertical members and two rear vertical members and wherein the cross members comprise a rear cross member directly engaging the two rear vertical members Wherein the rear cross member is a pipe communicating with the first or second pockets, and at least one of the two rear vertical members may be a pipe in fluid communication with the rear cross member.

According to an embodiment of the present invention, the cross members may include a rear upper cross member and a rear lower cross member that directly couple to the two rear vertical members . In this case, the rear upper cross member is a pipe communicating with the first collecting portion, and the rear lower cross member is a pipe communicating with the second collecting portion, and at least one of the two rear vertical members is a pipe communicating with the rear And a pipe in fluid communication with the upper cross member and the rear lower cross member.

Optionally, each of the two rear vertical members may be a pipe in fluid communication with the rear upper cross member and the rear lower cross member.

According to another embodiment of the present invention, the cross members include a rear upper cross member and a rear lower cross member directly engaged with the two rear vertical members, and the rear upper cross member is communicated with the first collecting portion Wherein the rear lower cross member is a pipe in communication with the second stack portion and one of the two rear vertical members is a pipe in fluid communication with the rear upper cross member, And the other is a pipe in fluid communication with the rear lower cross member.

The frame structure may further include a horizontal member having a longitudinal direction parallel to the first and second headers. The horizontal member is directly coupled to one of the front vertical members and one of the rear vertical members, respectively, at both ends to maintain a constant distance between the front vertical members and the rear vertical members.

The frame structure may further include an aeration unit positioned below the hollow fiber membrane module. In this case, at least one of the vertical members is a pipe in fluid communication with the acid base.

Wherein said vertical members include two front vertical members and two rear vertical members, said cross members including a rear cross member that directly engages said two rear vertical members, Or at least one of the two vertical vertical members is in fluid communication with the rear cross member and at least one of the two front vertical members is in fluid communication with the acid base, Lt; / RTI >

The cross members include a front cross member that directly engages the two front vertical members and the front cross member may be a pipe in fluid communication with the acid base through at least one of the two front vertical members .

Each of the two front vertical members is a pipe in fluid communication with the acid base, and the front cross member may be a pipe in fluid communication with the acid base through the two front vertical members.

Optionally, the frame structure may further comprise an air pipe in fluid communication with the front cross member to provide air to the front cross member.

The frame structure includes an upper cross bar coupled to a lower portion of the front cross member and to which the first header of the hollow fiber membrane module is fastened; And a lower cross bar directly coupled to the two front vertical members and coupled to the second header of the hollow fiber membrane module.

Wherein the diffuser has an intermediate pipe in fluid communication with at least one of the vertical members; And a plurality of aeration tubes, and the relay tube is capable of distributing the air supplied from the fluid communication vertical member to the plurality of air diffusers.

The foregoing general description of the present invention is intended to be illustrative of or explaining the present invention, but does not limit the scope of the present invention.

Since the filtration apparatus of the present invention has a simplified structure, it can be manufactured relatively easily as compared with the prior art, and can be manufactured at a relatively low cost.

In addition, other features and advantages of the present invention may be newly recognized through practice of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a perspective view of a filtration apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of a filtration apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a filtration apparatus according to an embodiment of the present invention.

As illustrated in FIG. 1, the filtration apparatus of the present invention includes a frame structure 100 and hollow fiber membrane modules 200. The hollow fiber membrane modules 200 are mounted within the frame structure 100.

Each of the hollow fiber membrane modules 200 includes a first header 210 having an elongated shape with a first collecting portion, a second header 220 having an elongated shape having a second collecting portion, And a hollow fiber membrane 230 between the first and second headers 210 and 220.

The polymer resin that can be used in the production of the hollow fiber membrane 230 may be selected from the group consisting of a polysulfone resin, a polyether sulfone resin, a sulfonated polysulfone resin, a polyvinylidene fluoride (PVDF) resin, a polyacrylonitrile (PAN) A polyamideimide resin, and a polyesterimide resin.

The hollow fiber membrane 230 may be in the form of a single membrane or a composite membrane. When the hollow fiber membrane 230 is in the form of a composite membrane, the hollow fiber membrane 230 may include a tubular braid and a polymer membrane coated on the surface thereof. The tubular braid may be made of polyester or nylon, and the polymer thin film may be formed of a polysulfone resin, a polyethersulfone resin, a sulfonated polysulfone resin, a polyvinylidene fluoride resin, a polyacrylonitrile resin, a polyimide resin, A polyamide-imide resin, and a polyester imide resin.

One end of the hollow fiber membrane 230 is fixed to the body 211 of the first header 210 through a first fixing layer (not shown), and the other end of the hollow fiber membrane 230 is fixed to the second header 220 through the second fixing layer 222. [ As shown in Fig.

A hollow lumen of the hollow fiber membrane 230 is in fluid communication with the first and second collecting portions of the first and second headers 210 and 220. Accordingly, the permeate, which has passed through the hollow fiber membrane 230 by the negative pressure applied to the hollow fiber membrane 230, flows through the hollow of the hollow fiber membrane 230 to the first and second headers 210, 220, and then discharged through the first and second discharge pipes 213, 223.

1, the frame structure 100 according to an embodiment of the present invention includes four vertical members 111 and 112 and three cross members 121, 122 and 123 .

The vertical members 111 and 112 include two front vertical members 112 and two rear vertical members 111 each of which is connected to a hollow fiber membrane module 200 mounted within the frame structure 100, Of the hollow fiber membrane 230 of FIG.

The cross members 121, 122, 123 include a front cross member 123 and two rear cross members 121, 122. The front cross member 123 is supported by them by directly engaging the two front vertical members 112 and each of the rear cross members 121 and 122 is supported by the two rear vertical members 111, Lt; RTI ID = 0.0 > a < / RTI > The cross members 121, 122 and 123 have longitudinal directions perpendicular to the first and second headers 210 and 220 of the hollow fiber membrane module 200 and the hollow fiber membrane 230, respectively.

The rear cross members 121 and 122 are formed by a rear upper cross member 121 and a rear lower cross member 122 corresponding to the first header 210 and the second header 220 of the hollow fiber membrane module 200, ).

1, the rear upper cross member 121 is a pipe that communicates with the first collecting portion of the first header 210 of the hollow fiber membrane module 200. As shown in FIG. The first header pipe 210 of the first header 210 is inserted into the fastening hole 121a of the rear upper cross member 121 so that the first header 210 is inserted into the rear upper cross member 121 And the first collecting portion of the first header 210 is in fluid communication with the rear upper cross member 121. Similarly, the rear lower cross member 122 is a pipe for providing a fluid passage, and the second discharge pipe 223 of the second header 220 is connected to the fastening hole 122a of the rear lower cross member 122, The second header 220 is supported by the rear lower cross member 122 and the second collection part of the second header 220 is in fluid communication with the rear lower cross member 122. [

According to one embodiment of the present invention, each of the two rear vertical members 111 is a pipe in fluid communication with the rear upper cross member 121 and the rear lower cross member 122. Therefore, the filtered water passing through the hollow fiber membrane 230 by the negative pressure provided in the hollow of the hollow fiber membrane 230 flows into the first and second collectors of the first and second headers 210 and 220 Is transmitted to the rear upper cross member 121 and the rear lower cross member 122 through the first and second exhaust pipes 213 and 223 and the exhaust ports 111a of the rear vertical members 111 .

According to another embodiment of the present invention, one of the two rear vertical members 111 (hereinafter, referred to as a first rear vertical member) is a pipe in fluid communication with the rear upper cross member 121, The other one of the two rear vertical members 111 (hereinafter, referred to as a second rear vertical member) is a pipe in fluid communication with the rear lower cross member 122. Therefore, the filtered water flowing into the first collecting part of the first header 210 of the hollow fiber membrane module 200 is discharged to the outside of the filtering device through the rear upper cross member 121 and the first rear vertical member. On the other hand, the filtered water flowing into the second collecting part of the second header 220 of the hollow fiber membrane module 200 is discharged to the outside of the filtering device through the rear lower cross member 122 and the second rear vertical member.

According to another embodiment of the present invention, one of the two rear cross members 121 and 122 is not a pipe providing a fluid passage, and the first and second headers 210 and 210 of the hollow fiber membrane module 200 , And 220 of the first embodiment. In this case, the header corresponding to the rear cross member performing only the simple support function may not have the catch portion therein. In addition, both of the two rear vertical members 111, or only one of them, can be a pipe that is coupled in a fluid-conducting manner to a rear cross member providing a filtrate passageway.

The frame structure 100 of the present invention may further include horizontal members 131 and 132 having a longitudinal direction parallel to the first and second headers 210 and 220 of the hollow fiber membrane module 200 . According to an embodiment of the present invention, the horizontal members 131 and 132 include upper horizontal members 131 and lower horizontal members 132 located at lower positions. Each of the horizontal members 131 and 132 is connected to one of the front vertical members 121 so as to maintain a constant distance between the front vertical members 112 and the rear vertical members 111. [ And one of the rear vertical members 111, respectively.

The frame structure 100 of the present invention may further include a silica base 150 positioned below the hollow fiber membrane module 200. At least one of the front vertical members 112 is a pipe in fluid communication with the acid base 150 and provides a passage for the air to be supplied to the acid base 150. The front cross member 123 is a pipe in fluid communication with the front vertical member (s) 112 providing a passageway for the air to be supplied to the acid base portion 150.

According to one embodiment of the present invention, both of the front vertical members 112 provide a passage for air to be supplied to the acid base 150 as pipes in fluid communication with the acid base 150, The cross member 123 is a pipe that is in indirect fluid communication with the acid base portion 150 via the two front vertical members 112. In this case, air for cleaning the hollow fiber membrane 230 is provided to the acid base 150 after sequentially passing the front cross member 123 and the front vertical members 112.

1, the frame structure 100 of the present invention includes an air pipe 140 in fluid communication with the front cross member 123 to provide air to the front cross member 123, As shown in FIG. In this case, air introduced into the air pipe 140 through the inlet port 141 is supplied to the acid heater 150 after sequentially passing the front cross member 123 and the front vertical members 112 .

The acid base 150 may include a relay tube 151 and a plurality of diffusers 152 in fluid communication with at least one of the front vertical members 112. The relay pipe 151 distributes the air supplied from the front vertical member (s) 112 in fluid communication to the plurality of air diffusers 152. The air introduced into the air diffusing pipes 152 is discharged into the raw water through the holes H formed in the air diffusing pipes 152 and then raised to remove contaminants attached to the surface of the hollow fiber membrane 230.

According to an embodiment of the present invention, the acid base 150 includes two relay pipes 151, and both ends of each relay pipe 151 are connected to one of the front vertical members 121 and the rear vertical It is possible to maintain a constant interval therebetween by directly joining them to one of the members 111, respectively. In this case, the lower horizontal members 132 performing the same function may be omitted.

1, the frame structure 100 of the present invention has a structure in which the first and second headers 210 and 220 of the hollow fiber membrane module 200 and the hollow fiber membrane 230 in the longitudinal direction The upper cross bar 125 and the lower cross bar 124 having the upper cross bar 125 and the lower cross bar 124, respectively.

The upper cross bar 125 is coupled to a lower portion of the front cross member 123. Alternatively, the upper crossbar 125 may be directly coupled to the front vertical members 112 as well. A portion of the first header 210 of the hollow fiber membrane module 200 opposite to the first discharge pipe 213 is fastened to the upper cross bar 125.

The lower cross bar 124 is directly coupled to the two front vertical members 112. A portion of the second header 220 of the hollow fiber membrane module 200 opposite to the second discharge pipe 223 is fastened to the lower cross bar 124.

That is, according to one embodiment of the present invention, the first and second exhaust pipes 213 and 223 of the first and second headers 210 and 220 are connected to the rear upper cross member 121 and the rear lower cross member 121, 223 of the first and second headers 210 and 220 are inserted into the fastening holes 121a and 122a of the upper cross bar 122, 125 and the lower cross bar 124, respectively, so that the hollow fiber membrane module 200 is mounted in the frame structure 100.

As described in detail above, according to the present invention, the vertical members 111 and 112 and the cross members 121, 122 and 123, which are the main components of the frame structure 100, support the hollow fiber membrane module 200 But also does not require additional components for the flow of filtered water and air, since it also functions as a passageway for the flow of filtered water and / or air. As a result, the filtration apparatus of the present invention having a simplified structure can be manufactured relatively easily as compared with the prior art, and can be manufactured at a relatively low cost.

100: frame structure 200: hollow fiber membrane module

Claims (13)

A frame structure; And
A hollow fiber membrane module mounted within the frame structure,
The hollow fiber membrane module includes:
A first header having a first collecting space;
A second header having a second catch; And
And a hollow fiber membrane between the first and second headers,
The frame structure includes:
Vertical members having a longitudinal direction parallel to the hollow fiber membrane of the hollow fiber membrane module;
A cross member supported by the vertical members and having a longitudinal direction perpendicular to the first and second headers and the hollow fiber membrane,
Wherein at least one of the cross members is a pipe communicating with the first or second collecting portion. The method according to claim 1,
Wherein the vertical members comprise two front vertical members and two rear vertical members,
Wherein the cross members include a rear cross member that directly engages the two rear vertical members,
Wherein the rear cross member is a pipe communicating with the first or second collecting portion,
Wherein at least one of the two rearward vertical members is a pipe in fluid communication with the rear cross member. 3. The method of claim 2,
Wherein the cross members include a rear upper cross member and a rear lower cross member that directly couple to the two rear vertical members,
The rear upper cross member is a pipe communicating with the first collecting portion,
The rear lower cross member is a pipe communicating with the second collecting portion,
Wherein at least one of the two rear vertical members is a pipe in fluid communication with the rear upper cross member and the rear lower cross member. The method of claim 3,
Wherein each of the two rear vertical members is a pipe in fluid communication with the rear upper cross member and the rear lower cross member. 3. The method of claim 2,
Wherein the cross members include a rear upper cross member and a rear lower cross member that are directly coupled to the two rear vertical members,
The rear upper cross member is a pipe communicating with the first collecting portion,
The rear lower cross member is a pipe communicating with the second collecting portion,
One of the two rear vertical members being a pipe in fluid communication with the rear upper cross member,
And the other of the two rear vertical members is a pipe in fluid communication with the rear lower cross member. 3. The method of claim 2,
Wherein the frame structure further comprises a horizontal member having a longitudinal direction parallel to the first and second headers,
Wherein the horizontal member is directly coupled to one of the front vertical members and one of the rear vertical members so as to maintain a constant distance between the front vertical members and the rear vertical members. Lt; / RTI > The method according to claim 1,
Wherein the frame structure further comprises an aeration unit located below the hollow fiber membrane module,
Wherein at least one of the vertical members is a pipe in fluid communication with the acid base. 8. The method of claim 7,
Said vertical members comprising two front vertical members and two rear vertical members,
Wherein the cross members include a rear cross member that directly engages the two rear vertical members,
The rear cross member is a pipe communicating with the first or second collecting portion,
At least one of the two rear vertical members being a pipe in fluid communication with the rear cross member,
Wherein at least one of the two front vertical members is a pipe in fluid communication with the acid base. 9. The method of claim 8,
Wherein the cross members include a front cross member directly engaged with the two front vertical members,
Wherein the front cross member is a pipe in fluid communication with the acid base through at least one of the two front vertical members. 10. The method of claim 9,
Each of the two front vertical members being a pipe in fluid communication with the acid base,
Wherein the front cross member is a pipe in fluid communication with the acid base through the two front vertical members. 10. The method of claim 9,
Wherein the frame structure further comprises an air pipe in fluid communication with the front cross member to provide air to the front cross member. 10. The method of claim 9,
The frame structure includes:
An upper cross bar coupled to a lower portion of the front cross member and to which the first header of the hollow fiber membrane module is fastened; And
Further comprising a lower cross bar directly coupled to the two front vertical members and coupled to the second header of the hollow fiber membrane module. 8. The method of claim 7,
The acid-
An intermediate pipe in fluid communication with at least one of said vertical members; And
Comprising a plurality of aeration tubes,
Wherein the relay tube distributes the air supplied from the vertical member in fluid communication to the plurality of air diffusers.