KR20060018682A - Immersed hollow fiber membrane module - Google Patents

Abstract

The present invention relates to a submerged hollow fiber membrane module capable of easily forming a unit of the submerged hollow fiber membrane module, simplifying installation of the system, and easily coping with an increase in processing capacity.

In such a submerged hollow fiber membrane module,

A hollow fiber membrane;

A pair of head assemblies each composed of a cap fixedly supporting upper and lower portions of the hollow fiber membrane, and a cap having a collecting space in which the head and the diffuser are combined and the filtered water is stored;

And a support frame for supporting the head assembly at regular intervals,

The head assembly includes a cleaning air supply port for supplying air to the air diffuser and a filtrate water outlet for discharging the filtered water in the water collecting space and a filtration water outlet of the adjacent hollow fiber membrane module adjacent to the clean air supply port and the filtrate water outlet There is provided a submerged hollow fiber membrane module in which a filtration water discharge port mounting groove and a cleaning air supply hole installation groove are formed through which a cleaning air supply port can be inserted.

Hollow fiber, hollow fiber membrane, membrane, module, immersion type, water treatment

Description

[0001] IMMERSED HOLLOW FIBER MEMBRANE MODULE [0002]

1 is a perspective view of a hollow fiber membrane module unit using a conventional hollow fiber membrane module.

2 is a front view of a submerged hollow fiber membrane module according to the present invention;

3 is an exploded perspective view of the head assembly provided in the hollow fiber membrane module of FIG.

Figure 4 is an exploded perspective view of the head assembly of Figure 3;

Fig. 5 is a side view of Fig. 3; Fig.

6 is a partial perspective view of a head assembly showing that the frame fixing part provided in the submerged hollow fiber membrane module according to the present invention has a different shape.

Fig. 7 is a perspective view showing a part of a support frame fixed to the frame fixing portion of Fig. 6; Fig.

FIG. 8 is a perspective view showing a state in which a submerged hollow fiber membrane module according to the present invention is combined. FIG.

The present invention relates to a hollow fiber membrane module, and more particularly, to a submerged hollow fiber membrane module in which a submerged hollow fiber membrane module can be easily unitized, a system can be easily installed, and a treatment capacity can be easily increased.

Generally, the method of separating solid-liquid using a separation membrane is advantageous compared to the separation method using heating or phase change in wastewater treatment. One of them is to increase the reliability of the process because it can stably obtain the desired treated water of a desired quality according to the pore size of the separation membrane.

Further, since the separation membrane does not require any operation such as heating, there is an advantage that it can be widely used in a separation process using a microorganism or the like which can be influenced by an operation such as heating. Due to these advantages, the utilization range of wastewater treatment, industrial wastewater treatment, drinking water treatment, and separation process in pharmaceutical and industrial fields have been widely used by using membranes in recent years.

As one of the solid-liquid separation methods using the separation membrane as described above, there is a hollow fiber membrane module in which a hollow fiber membrane is formed in multiple bundles. One of the hollow fiber membrane modules is directly immersed in a fluid water tank to be treated, A hollow fiber membrane module is used in which a fluid is passed through a hollow fiber and a solid solution is separated. The submerged hollow fiber membrane module can lower the manufacturing cost of the module and does not require facilities for circulation of the fluid, which is advantageous in that the facility cost and the operation cost can be reduced.

The most common submerged hollow fiber membrane module includes an "I" -shaped module in which both ends of a hollow fiber bundle are fixed to an upper head and a lower head using an adhesive, and a hollow fiber bundle, &Quot; U "shaped modules fixed to the membrane, which can be used in a small capacity biological sewage / wastewater treatment process.

In addition, in the case of the submerged hollow fiber membrane module, in order to solve the problem of membrane contamination and deterioration of the permeation performance when treating sewage / wastewater or crude liquid in which membrane contaminants including solid components exist, And a method of removing air contaminants from the surface of the separation membrane by generating air is used.

The submerged hollow fiber membrane module as described above is installed in the form of a module unit in which a plurality of modules are connected in series or in parallel, and the target liquid is filtered in this state.

However, in the submerged hollow fiber membrane module, a plurality of hollow fiber modules 110a, 110b, 110c... 110n (see FIG. 1) are required in a place where a large capacity is required, for example, 112b, 112c, ..., 112n for discharging filtered water filtered by the hollow fiber membranes, as shown in the drawing, are used as the module units 100, A structure is provided on the upper side of the module, or on the lower side of the module or on the upper side and the lower side of the module, respectively.

Therefore, it is necessary to have a plurality of discharge pipes 112a, 112b, 112c, ..., 112n and to support the modules 110a, 110b, 110c .... 110n of the hollow fiber membrane module unit 100 There is a problem that frames (not shown) need to be individually added.

Further, in the case of removing contaminants on the surface of the hollow fiber membrane using micro air bubbles generated in an air diffuser provided below a module unit (not shown), there is a problem that an air supply line must be separately added.

Due to these problems, the conventional hollow fiber membrane module has a complicated system, requires a large installation area, and is vulnerable to unitization of a plurality of hollow fiber membrane modules connected in series or in parallel in order to increase the processing capacity.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an immersion type And a hollow fiber membrane module.

In the submerged hollow fiber membrane module proposed by the present invention,

A hollow fiber membrane;

A pair of head assemblies each composed of a cap fixedly supporting upper and lower portions of the hollow fiber membrane, and a cap having a collecting space in which the head and the diffuser are combined and the filtered water is stored;

And a support frame for supporting the head assembly at regular intervals,

The head assembly includes a cleaning air supply port for supplying air to the air diffuser and a filtrate water outlet for discharging the filtered water in the water collecting space and a filtration water outlet of the adjacent hollow fiber membrane module adjacent to the clean air supply port and the filtrate water outlet There is provided a submerged hollow fiber membrane module in which a filtration water discharge port mounting groove and a cleaning air supply hole installation groove are formed through which a cleaning air supply port can be inserted.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a front view of a submerged hollow fiber membrane module according to the present invention, FIG. 3 is an exploded perspective view of a head assembly provided in the hollow fiber membrane module of FIG. 2, and FIG. 4 is an exploded perspective view of the head assembly of FIG.

As shown in the figure, the submerged hollow fiber membrane module of the present embodiment includes a hollow fiber membrane 10, a pair of head assemblies 12a and 12b for respectively fixing upper and lower portions of the hollow fiber membrane 10, And a support frame 14 for supporting the head assemblies 12a and 12b at regular intervals.

The hollow fiber membrane 10 is composed of a microfibrous structure having a predetermined length and an internal space formed therein and has a filtration function for filtering impurities and germs contained in sewage or wastewater, Detailed description thereof is omitted.

The head assemblies 12a and 12b have the same structure and can be used anywhere in the upper and lower portions of the hollow fiber membrane 10.

The head assembly 12a or 12b includes a head 16 having both ends of the hollow fiber membrane 10 fixed by an adhesive or the like, a cap 18 to which the head 16 is coupled, And an air diffuser 20 fixed to the cap 18 for spraying air onto the surface of the hollow fiber membrane 10.

The head 16 and the cap 18 may be adhered to each other by using an adhesive or by using a screw. In order to prevent water leakage between the head 16 and the cap 18, Packing may be further provided.

The head 16 includes a fixing groove 22 to which an end of the hollow fiber membrane 10 is fixed and a flange portion 24 formed on an upper outer surface of the fixing groove 22.

The cap 18 includes a water collecting space 26 in which the fixing groove 22 of the head 16 is inserted and stored so that the filtered water is stored therein, An inflow portion 28, and a frame fixing portion 30 to which the support frame 14 is fixedly supported.

The upper surface of the water collecting space 26 and the air inlet 28 is formed as a step so that the head 16 and the air diffuser 20 can be coupled and fixed while being supported respectively.

On the side surface of the cap 18, a filtered water outlet 32 for discharging the filtered water collected in the water collecting space 26 and a clean air supply port 34 for supplying the cleaned air to the cap 18 are provided respectively The cleaning air supply port 34 is formed in plural and is supplied to the air diffusing pipe 20 through the air inflow portion 28 and then supplied to the air diffusing pipe 34 through a plurality of nozzles 36 formed in the air diffusing pipe 20, do.

The filtration water outlet 32 and the cleansing air supply port 34 formed in the cap 18 are also used as connection ports when a plurality of hollow fiber membrane modules fabricated from one unit member are coupled to each other. As shown in FIG. 5, the filtration water outlet port and the clean air outlet port of the adjoining hollow fiber membrane module are inserted into the filtration water outlet port 32 and the cleaned air supply port 34, respectively, Grooves 32a and cleaning air supply inlet grooves 34a are formed.

When the hollow fiber membrane module units are coupled to both ends of the cap 18 as described above, the fixing rods 38 are inserted in the state where the modules are coupled, A connection hole 40 is formed.

An O-ring 42 is fitted to the outer circumferential surface of the cleaning air supply port 34 so as to maintain the airtightness and prevent air leakage. When a plurality of hollow fiber membrane module units are coupled to each other, air leakage is prevented .

In addition, although the cap 18 constituting the head assembly can be manufactured in a state in which the lower portion thereof is sealed, for example, when the lower portion of the cap 18 is formed as a body, floating substances are accumulated in the body- The cover 43 may be sealed with an adhesive in order to prevent the use of the microorganism as a breeding place in an environment rich in organic matter such as wastewater.

The frame fixing portion 30 in which the supporting frame 14 is inserted is protruded from the upper surface of the cap 18 in the above embodiment, 46 and the fixing groove 48 formed in the supporting groove 46, the supporting frame 50 is inserted into the supporting groove 46 as shown in FIG. 7, And a fixing protrusion 52 to be fitted in the fitting hole 48. [

The submerged hollow fiber membrane module according to the present invention is used by connecting the respective hollow fiber membrane units as shown in FIG. 8. In this case, the cap assemblies of the head assemblies 12a and 12b constituting the hollow fiber membrane units The filtration water discharge port 32 and the cleaning air supply port 34 formed at one side of the hollow fiber membrane module 18 are inserted into the filtration water discharge port mounting groove 32a and the cleaning air supply mounting groove 34a formed in the adjacent hollow fiber membrane module do.

The hollow fiber membrane module unit thus connected is connected to the cap adjacent to the filtered water discharge port 32 and the cleaning air supply port 34 so that the hollow fiber membrane module unit serves to connect and fix each unit and to function as drain water and air supply passage.

The connection holes 40 formed in the respective modules are connected to each other. When the module fixing rods 38 are fixed to the connection holes 40, the hollow fiber membrane module unit is constructed. (Not shown) made to fit the shape of the square and module on the outside of the unit.

The filtered water outlet 32 and the washing air inlet 34 of each module are coupled to the filtered water outlet mounting groove 32a and the cleaning air inlet mounting groove 34a of the adjacent hollow fiber membrane module in an interference fit manner, But the present invention is not limited thereto and may be connected by a screw connection method or may be sealed by a sealing adhesive or by fastening a fixing member such as a nut to both ends of the fixing rod 38, The sealed state can be further improved.

When the plurality of module units are coupled as described above, the filter water outlet 32 and the cleaning air inlet 34 are located at upper and lower portions of one side of the module unit, and the filtered water outlet mounting groove 32a and the clean air inlet A groove 34a is located and a filtered water discharge pipe 54 is connected to the filtered water discharge port 32 and the filtered water discharge port mounting groove 32a of the module located at the distal end and the cleaning air supply port 34, The cleaning air supply conduit 56 is connected to the groove 34a, and the unconnected portion is sealed with the lid 58.

In this embodiment, as shown in FIG. 8, a filtered water discharge pipe 54 is connected to the filtered water discharge ports 32 on the upper and lower sides of one side of the hollow fiber membrane module, and both the clean air supply ports 34 are connected to a cleaning air supply line 56, and the other is sealed with a lid 58.

When the suction pump and the blower are driven after the filtered air discharge pipe 54 is connected to an unshown suction pump, the cleaning air supply pipe 56 connected to the cleaning air supply pipe 56 is connected to an air supply device such as a blower The untreated water in the tank in which the module unit is installed is filtered by the hollow fiber membrane 10 and the filtered water is collected in the collecting portion of the upper head 12a and then sucked into the filtered water discharge pipe 54 by the suction force of the suction pump. As shown in FIG.

The cleaning air supplied from the cleaning air supply conduit 56 is supplied to the air diffuser 20 installed in the lower cap 18 during the filtration operation as described above and is supplied through the nozzle 36 to the hollow fiber membrane 10 to remove contaminants on the surface of the hollow fiber membrane 16.

As described above, according to the present invention, a plurality of hollow fiber membrane modules are arranged in a line in accordance with a required processing capacity, and a fixing rod 38 is inserted into the connection hole 40, So that the module unit can be formed.

 As described above, in the submerged hollow fiber membrane module according to the present invention, the filtered water outlet and the cleaned air supply port formed on one side of the cap of the head assembly constituting the hollow fiber membrane unit are connected to the filtered water outlet mounting groove formed in the adjacent hollow fiber membrane module, The hollow fiber membrane module can be easily assembled and integrated by inserting the hollow fiber membrane module in a manner to be inserted into the feed inlet groove and sandwiching the fixing rod.

Therefore, it is possible to cope with water treatment plants of various capacities, and there is an advantage that it is possible to cope with an increase in the processing capacity.

In addition, since the upper and lower structures, that is, the upper head assembly and the lower head assembly have the same structure, the present invention also has an effect that components can be shared.

Claims (3)

A hollow fiber membrane; A pair of head assemblies each composed of a cap fixedly supporting upper and lower portions of the hollow fiber membrane, and a cap having a collecting space in which the head and the diffuser are combined and the filtered water is stored; And a support frame for supporting the head assembly at regular intervals, The head assembly includes a cleaning air supply port for supplying air to the air diffuser and a filtrate water outlet for discharging the filtered water in the water collecting space and a filtration water outlet of the adjacent hollow fiber membrane module adjacent to the clean air supply port and the filtrate water outlet Wherein the filtration water outlet mounting groove and the cleaning air supply hole groove are formed in the bottom wall of the hollow fiber membrane module. The connector assembly of claim 1, wherein a plurality of hollow fiber membrane module units are coupled to both ends of a cap forming the head assembly, a plurality of hollow fiber membrane module units are coupled, The hollow fiber membrane module comprising: An O-ring according to claim 1, wherein an O-ring is provided on an outer circumferential surface of the clean air supply port so as to maintain airtightness to prevent air leakage, a frame fixing portion is formed on the cap, And the packing is provided.

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