KR20190142596A - a filtering apparatus using natural water pressure - Google Patents

Abstract

According to an embodiment of the present invention, a natural hydraulic water purifier comprises: a raw water storage module in a form of a barrel in which raw water flows while a lower portion tapers; a tubular hollow fiber membrane module coupled to the lower portion of the raw water storage module to purify raw water; and a fixing module for coupling and fixing the hollow fiber membrane module to the raw water storage module. The hollow fiber membrane is used efficiently while viruses, pathogenic microorganisms and bacteria are removed by water pressure caused by gravity without using electricity or power, thereby allowing users to drink and use purified clean water.

Description

Natural Water Purification System {a filtering apparatus using natural water pressure}

The present invention relates to a natural water purifying apparatus, and more particularly, ultrafiltration having a high porosity and high permeability with a small pore size suitable for seawater desalination pretreatment, water purification, sewage, wastewater treatment, concentration, and filtration in a water treatment system. The present invention relates to a natural hydraulic water purification device capable of efficiently and simply combining a hollow fiber membrane (Ultra Filtration Hollow-fiber) and requiring no electricity and power, and a method of manufacturing the same.

Recently, membrane separation technology using hollow fiber membranes has been introduced into the water treatment market worldwide.

Membrane separation technology has low energy consumption, simple operation, rapid separation of materials, and high productivity, so that it can be applied to industrial scale as well as large water purification or wastewater treatment plants. .

However, such a water purifier uses a method of operating by using electricity, has a disadvantage that can not be used in the environment without electricity, it is not easy to install a water treatment device,

Therefore, it is not possible to use electricity, and economically not enough in developing countries, there is a problem that does not live properly due to water contaminated with viruses, microorganisms, bacteria and the like.

The present invention has been made to solve such a problem, the object of the present invention is to use ultra-high pressure hollow fiber membranes without the use of electricity or power in the developing countries that can not use electricity, economically enough It can be easily installed to provide a natural water purifier that can easily clean the water contaminated with viruses, microorganisms, bacteria, and the like.

Natural water purifying apparatus according to an embodiment of the present invention, the raw water inlet is stored in the bottom of the tubular raw water storage module is narrowed, the tubular hollow fiber membrane module is coupled to the lower portion of the raw water storage module to purify the raw water And a fixing module for fixing and fixing the hollow fiber membrane module to the raw water storage module.

Natural hydrostatic water purifying apparatus according to an embodiment of the present invention, while efficiently using the hollow fiber membrane, by removing the virus, pathogenic microorganisms, bacteria by water pressure by gravity without using electricity or power, and ingested clean water and It can be made available.

Natural water purifier according to an embodiment of the present invention is not only excellent in durability and chemical resistance, but also can be simply washed by using a piston module, by increasing the water pressure by gravity can proceed more efficiently the gravity It can be used anywhere in the world, and can improve the quality of life in remote and developing countries without electricity and power.

1 is a perspective view of a natural hydraulic water purifier according to an embodiment of the present invention.
Figure 2 is an exploded perspective view for explaining the main configuration of the natural hydraulic water purifying apparatus according to an embodiment of the present invention.
3 is a longitudinal cross-sectional view taken along the line II-II of FIG. 2 for explaining the main configuration of the natural hydraulic water purifying apparatus according to an embodiment of the present invention.
4 is a longitudinal cross-sectional view taken along the line II-II of FIG. 2 for explaining the main configuration of the natural hydraulic water purification apparatus according to a modified embodiment of the present invention.
5 is an exploded perspective view of a piston module used in a natural hydraulic water purification apparatus according to a modified embodiment of the present invention.

Hereinafter, a natural hydraulic water purifying apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 5.

In the present specification, the natural hydrostatic water purifier according to an embodiment of the present invention is merely an example for describing the present invention, and the protection scope of the present invention is not limited to the embodiments.

First, referring to FIG. 1 to FIG. 3, the natural hydraulic water purification device 100 according to an embodiment of the present invention includes raw water storage module 110 having a tubular shape in which a raw water flows in and is stored in a lower portion thereof, and the raw water storage. It is coupled to the lower portion of the module 110 includes a hollow fiber membrane module 130 for purifying raw water, and a fixing module 150 for coupling and fixing the hollow fiber membrane module 130 with respect to the raw water storage module 110 It can be configured by.

Collecting purified water through the hollow fiber membrane module 130 via the fixing module 150, and may further include a support and collection module 170 for supporting the raw water storage module 110 in the direction of gravity. have.

The support and collection module 170 may have a support portion and a collection portion separately for the fixing module 150 is taken, or may be integrally formed.

The raw water storage module 110 is a hollow hollow inside the small diameter portion 111, the tapered portion 113 tapered downward toward the small diameter portion 111, and connected upward from the tapered portion 113 It may include a large diameter portion 115 and the raw water inlet 117 formed on the large diameter portion 115.

The outer diameter of the large diameter portion 115 is 200 ~ 500mm, the material may be a material such as PVC, ABS, which is a material resistant to contamination, durability, and the outer diameter of the raw water inlet 117 is preferably 150 ~ 450mm. Do.

The hollow module 130 is a hollow tube portion 131 that is fitted into the small diameter portion 111 of the raw water storage module 110, and protrudes in the circumferential direction on the hollow tube portion 131, the raw water storage The hollow fiber membrane module 130 with respect to the raw water storage module 110 is formed in the flange portion 133 is flanged to the tapered portion 113 of the module 110 and the intermediate end of the hollow module 130 ) May include a fastening part 135 having a screw thread formed therein and an ultrafiltration hollow fiber membrane 137 accommodated in the hollow tube part 131.

Through the flange portion 133, the hollow module 130 may be engaged with the taper portion 113 of the raw water storage module 110, the flange portion 133 and the tapered portion 113 Between the rubber ring packing module 140 made of a material such as urethane may be further included.

The raw water storage module 110 has a multi-stage structure of the small diameter portion 111, the tapered portion 113, and the large diameter portion 115 to collect the raw water sufficiently, but the hollow module 130 with respect to the collected raw water. Filtration can be efficiently carried out using a), and according to the Benerui principle, the raw water is concentrated in the small diameter portion 111, and the flow rate is increased, and the middle grain film 137 is used in a smaller amount than the large diameter portion 115. Even if natural pressure by gravity can be used efficiently.

 The hollow part of the hollow fiber membrane module 130 by screwing the threaded portion 151 of the fixing module 150 to the fastening portion 135 formed in the middle of the hollow water membrane module 130 even if the water pressure inside the raw water storage module 110 increases The module 130 may be prevented from coming off.

 In addition, the fixing module 150 is formed in the tubular shape threaded portion 151 for screwing the fastening portion 135 therein, as well as a width portion 153 protruding in the radial direction. It may be stepped to support the small diameter portion 111 end of the raw water storage module 110.

In the raw water inlet 117 formed on the raw water storage module 110, the projection 117a is formed to protrude at least two or more in the inner diameter direction so that the strainer module 120 may be further disposed with respect to the raw water inlet 117. have.

The diameter of the raw water inlet 117 is preferably formed larger than the diameter of the small diameter portion 111 and the diameter of the flange portion 135 of the hollow fiber membrane module 130, which can sufficiently collect the raw water, This is because the hollow fiber membrane module 130 is easily installed inside the raw water storage module 110 through the raw water inlet 117.

In addition, the large diameter portion 115 has a wrinkle portion 118 is formed in the height direction can be reduced to facilitate the installation of the hollow fiber membrane module 130, can be installed without restriction on the height of the installation space good.

The strainer module 120 may primarily filter foreign matter having large particles with respect to the raw water introduced into the raw water storage module 110.

 In addition, the sieve module 120 is a mesh material to install a grid size of 10 to 100 ㎛ size to prevent the giant particles or giant floats to block the micropores 137a of the ultra hollow fiber membrane 137. can do.

The ultrafiltration hollow fiber membrane 137 has an outer diameter of 1 to 2 mm, uses 50 to 300 strands, and has a pore size of various sizes of 0.01 to 1 μm, and a hollow tube part of the hollow fiber membrane module 130. Ported (fixed) with urethane or the like after being inserted fold once at 131.

The ultrafiltration hollow fiber membrane 137 is made of a material having high chemical resistance, durability, pollution resistance, and strength, and the hollow fiber membrane module 130 is fixed to the raw water storage module 110 by the fixed module 150. Since it is detachably coupled, semi-permanent use is possible through washing.

In addition, it can be seen that the hollow fiber membrane module 130 having such a structure has high chemical resistance, durability and pollution resistance, and high strength.

In the present specification, the pore size of the ultrafiltration hollow fiber membrane 137 is set to a size for ingesting ions required by humans, and to filter harmful substances such as viruses or bacteria, the potting is the ultra hollow fiber membrane 137 ) To harden by treating the chemical to fix the hollow tube 131.

By cutting the end of the hollow fiber membrane 137 folded once after the potting process with the epoxy or urethane, it is possible to secure a fine hole 137a, that is, a passage through which the purified water is processed through the ultra hollow fiber membrane 137.

When the raw water filtered primarily through the filter network module 120 is stored in the raw water storage module 110, the purified water is neatly processed due to natural water pressure through the hollow fiber membrane module 130 along the tapered portion 113. Water may be withdrawn through the micropores 137a of the hollow fiber membrane 137.

In the natural hydraulic water purification apparatus 100 according to an embodiment of the present invention, the hollow fiber membrane 137 is made of polyvinylidene fluoride (PVDF) and poly ether sulfone (PES) material, and the raw water storage module 110 is used. And the exterior of the hollow fiber membrane module 130 is made of a material such as PVC, durable and stain resistant.

Now, with reference to Figures 4 and 5 will be described in detail with respect to the natural hydraulic water purification apparatus 200 according to a modified embodiment of the present invention.

The natural hydraulic water purifier 200 according to another embodiment of the present invention has a piston module having a fixing part 251 instead of the fixing module for fixing the hollow desert module 230 with respect to the raw water storage module 210. There is a difference in that 250 is installed.

The piston module 250 has a fixed portion 251 in the form of a thread formed therein, the cylinder portion 252 and the cylinder portion (25) for supporting the end of the small diameter portion 211 of the raw water storage module 210 ( 252 may include a piston 253 for reciprocating in the interior.

The piston module 250 basically moves the piston unit 253 downward as necessary to the natural hydraulic water purification device 200, which is capable of filtering water by natural hydraulic pressure by gravity, thereby further adding water. You can drag to make the water purify more quickly.

In addition, by using the piston module 250 to further suck the water and to discharge again, the drain hole 259 is further provided, it is possible to see the cleaning effect of the ultrafiltration hollow fiber membrane 137.

The threaded portion 235 is inserted into the hollow tube portion 231 of the hollow fiber membrane module 230, so that the piston module 250 can be attached and detached as necessary.

According to the natural water pressure purifying apparatus (100, 200) according to an embodiment or modified example of the present invention configured as described above, the hollow fiber membrane is efficiently used, but without the use of electricity or power, the virus, pathogenicity due to water pressure by gravity The microorganisms and bacteria are removed to enable the intake and use of purified water, which can be easily cleaned using the piston module, and the water pressure can be increased more efficiently by increasing the water pressure caused by gravity. It can be used anywhere in the world, and can improve the quality of life in remote and developing countries without electricity and power.

110: raw water storage module 120: strainer module
130: hollow fiber membrane module 150: fixed module
170: support and collection module 250: piston module

Claims (7)

Raw water storage module in the form of a barrel in which the raw water is introduced but the bottom is narrowed;
A tubular hollow fiber membrane module coupled to a lower portion of the raw water storage module to purify raw water; And
Natural hydrostatic water purification device comprising a fixing module for coupling and fixing the hollow fiber membrane module with respect to the raw water storage module. The method of claim 1,
Natural water pressure purification device including a support storage module is caught by the raw water storage module is supported in the direction of gravity and purified water is purified by natural water pressure from the hollow fiber membrane module. The method of claim 1,
The raw water storage module includes a small diameter portion having a hollow inside, a tapered portion tapered downward toward the small diameter portion, a large diameter portion connected upwardly from the taper portion, and a raw water inlet formed at an upper end of the large diameter portion,
The hollow module may include a hollow pipe part fitted into a small diameter part of the raw water storage module, a flange part protruding in a circumferential direction over the hollow pipe part and flanged to a tapered part of the raw water storage module, and the hollow A fastening part formed at a middle end of the module to be fastened to the fixed module to support the hollow fiber membrane module with respect to the raw water storage module, and an ultrafiltration hollow fiber membrane accommodated inside the hollow tube part. Natural water purifier containing. The method of claim 1,
The ultrafiltration hollow fiber membrane uses polyvinylidene fluoride (PVDF) or poly ether sulfone (PES), and has a pore size in the range of 0.01 to 1 μm, an outer diameter of 1 to 2 mm, and 50 to 300 strands. , The natural hydraulic water purification device to be used by putting the ultrafiltration hollow fiber membrane half bent in the hollow fiber membrane module. The method of claim 1,
A natural hydraulic water purifier, wherein the raw water inlet formed in the upper portion of the raw water storage module has protrusions protruding at least two or more in the inner diameter direction, so that a strainer module is further disposed with respect to the raw water inlet. The method of claim 1,
And a piston module having a fixing part in place of the fixing module for fixing the hollow desert module to the raw water storage module. The method of claim 6,
The piston module is a natural hydraulic water purifier further comprises a drain for discharging after inhaling water in the cylinder.

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