KR101666338B1 - Filtering apparatus for seawater desalination system - Google Patents

Abstract

The present invention discloses a filtering apparatus for a seawater desalination system. A filter device for a seawater desalination system includes a filter housing installed in an purified water line and connected to a reverse osmosis membrane device, a filter member installed in the filter housing for primarily removing foreign matter of raw water flowing into the filter housing through a purified water line, And a centrifugal force generating unit rotatably installed in the filter housing so as to rotate by the primary water passing through the member and for transferring foreign matter contained in the primary water to the inner wall of the filter housing through centrifugal force by rotation, The foreign substances contained in the raw water can be transferred to the inner wall of the filter housing by the centrifugal force of the rotating propeller member to be effectively removed.

Description

[0001] FILTERING APPARATUS FOR SEAWATER DESALINATION SYSTEM [0002]

The present invention relates to a filtering device for a seawater desalination system, and more particularly, to a filtering device for a seawater desalination system capable of enhancing a foreign matter removal rate by transferring foreign matter contained in raw water to an inner wall of a filter housing by using a rotational force of a centrifugal force generating part rotated by inflow of raw water To a filtering device for a seawater desalination system.

In recent years, due to global warming, rainfall is reduced locally or in a short time, water resources are geographically or temporally unevenly distributed, and the water conservation power of mountains is lowered due to declining forestry or deforestation. There is a difficult problem. Therefore, various techniques for desalinating seawater have been proposed in order to secure water resources stably.

In the seawater desalination method, which removes the dissolved substances including salt from the seawater which is difficult to use directly for drinking water and domestic water, the seawater desalination method which obtains the high-purity drinking water and the living water is an evaporation method in which seawater is evaporated by separating the salt and water vapor, A reverse osmosis system for producing fresh water, and an electrofiltration membrane separation system using ion exchange membrane treatment.

In other words, the seawater desalination apparatus can artificially produce fresh water in areas where water is scarce and use it for drinking water, agricultural water, industrial water, and the like. According to the method of separating fresh water from seawater, the evaporation method, reverse osmosis method, A diaphragm method, a freezing method, and a seawater desalination device therefor have been developed and used.

In addition, seawater desalination is promoting the implementation and promotion of desalination, which is provided as domestic water by removing salinity and organic matter from seawater, spreading throughout the Middle East, Europe, South America, and Asia, where there is a large amount of CaCO3.

In particular, maritime vessels that are to be operated for long-term maritime transportation are supplied with tap water from the land, and they are used as potable water by using water filtration membranes as drinking water. However, water stored in the tank increases with time, It is impossible to control the amount of bacteria, which is caused by turbidity and activation enzyme deficiency.

In order to solve this problem, large-scale vessels also use reverse osmosis phenomenon to reverse the sea water through semi-permeable membrane to produce fresh water.

Using the principle of reverse osmosis as described above, brine is passed through an ultra-fine membrane filter membrane layered with a pressure higher than osmotic pressure (50 to 60 kg / cm 2) to pass through a membrane filter membrane to filter out minerals (beneficial minerals) Leaving unreasonable ultra-pure water.

However, the conventional seawater treatment system using the reverse osmosis system as described above has a problem that the removal efficiency of the foreign matter is lowered because raw water flowing into the reverse osmosis membrane device is removed using only the filter.

Therefore, there is a need to improve this.

On the other hand, in the Korean Utility Model Registration No. 20-0191685 (registered on May 29, 2000), a "self-diagnostic device for seawater desalination device" is disclosed and Korean Patent Registration No. 10-1402345 On 26th of May, "High-efficiency reverse osmosis seawater desalination system" is introduced.

The present invention has been made in view of the above needs, and it is an object of the present invention to improve the removal efficiency of foreign matter and heavy metals by transferring foreign matter contained in raw water to the inner wall of the filter housing through the centrifugal force of the propeller member rotated by the inflow of raw water And to provide a filtering device for a seawater desalination system.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a filtering device for a seawater desalination system, comprising: a filter housing installed in an purified water line to be connected to a reverse osmosis membrane device; A filter member for primarily removing foreign matter from the incoming raw water; a filter member rotatably installed inside the filter housing to rotate by a primary purified water passing through the filter member, And a centrifugal force generating unit for transferring the foreign matter to the inner wall of the filter housing.

The filter housing may further include a raw water inlet connected to the filter member and connected to the purified water line and having a first opening / closing valve, a purified water outlet connected to the purified water line, And the other end is connected to the purified water discharging part and the other end is gradually expanded from one end to the other end so as to secure a circulation space of the primary water by the centrifugal force generating part, And a foreign matter outflow preventing part inclinedly coupled to the inside of the foreign matter collecting part in the purified water discharging part to prevent foreign matter collected in the foreign matter collecting part from flowing into the purified water discharging part.

The filter housing may further include a fluid flow inducing unit that induces the flow of the first order purified water passing through the filter member to the centrifugal force generating unit and the centrifugal force generating unit is rotatably coupled.

The centrifugal force generating unit is characterized in that one end and the other end of the centrifugal force generating unit are rotatably coupled to the foreign matter leakage preventing unit and the fluid flow inducing unit, respectively.

The centrifugal force generating unit may include a rotating shaft member slidably coupled to the filter housing so as to be located in a fluid flow direction of the filter housing and a plurality of propeller members coupled along the longitudinal direction of the rotating shaft member .

In addition, the rotation shaft member may have a first coupling hole for fixing the propeller member using a bolt.

The propeller member may include a hub into which the rotary shaft member is inserted, a blade portion coupled with the hub, and a second coupling hole communicating with the first coupling hole. The propeller member is supported by the other propeller member And a gap retaining protrusion extending from the hub to maintain an interval therebetween.

As described above, the filtering device for a seawater desalination system according to the present invention is subjected to a pretreatment process for removing foreign substances from the raw water before the raw water is treated using the reverse osmosis membrane device, The filtering effect can be improved.

According to the present invention, the foreign matter contained in the raw water is transferred to the inner wall of the filter housing by using the centrifugal force of the propeller member rotated by the introduction of the raw water, so that the removal rate of foreign matter and heavy metals It has an effect of improving.

In addition, according to the filtering device for a seawater desalination system according to the present invention, the flow rate of the primary purified water filtered through the filter member can be increased while concentrating the centrifugal force generating part with the centrifugal force generating part, Can be increased.

According to the filtering device for seawater desalination system according to the present invention, since the foreign matter leakage prevention part is protruded to the inside of the foreign matter collecting part at the purified water discharge part, foreign matter collected on the inside wall of the foreign matter collecting part can be minimized It has an effect.

1 is a block diagram schematically illustrating a seawater desalination system according to an embodiment of the present invention.
2 is a perspective view illustrating a filtering device for a seawater desalination system according to an embodiment of the present invention.
3 is a partially cutaway perspective view illustrating a filtering apparatus for a seawater desalination system according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a filtering apparatus for a seawater desalination system according to an embodiment of the present invention.
5 is a perspective view illustrating an installation structure of a centrifugal force generating unit according to an embodiment of the present invention.
6 is a perspective view illustrating a centrifugal force generating unit according to an embodiment of the present invention.
7 is a side view illustrating a centrifugal force generating unit according to an embodiment of the present invention.
8 is a cross-sectional view illustrating a centrifugal force generating unit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of a filtering apparatus for a seawater desalination system according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Accordingly, the definitions of these terms should be based on the contents of this specification.

FIG. 1 is a block diagram schematically showing a seawater desalination system according to an embodiment of the present invention. FIG. 2 is a perspective view showing a filtering apparatus for a seawater desalination system according to an embodiment of the present invention. 1 is a partial cutaway perspective view illustrating a filtering apparatus for a seawater desalination system according to one embodiment.

4 is a cross-sectional view illustrating a filtering apparatus for a seawater desalination system according to an embodiment of the present invention, and FIG. 5 is a perspective view illustrating an installation structure of a centrifugal force generating unit according to an embodiment of the present invention.

6 is a perspective view illustrating a centrifugal force generating unit according to an embodiment of the present invention, FIG. 7 is a side view illustrating a centrifugal force generating unit according to an embodiment of the present invention, FIG. 8 is a view showing a centrifugal force generating unit according to an embodiment of the present invention, Fig.

1 to 8, a filtering apparatus 100 for a seawater desalination system according to an embodiment of the present invention removes foreign matter contained in raw water before treating raw water (seawater) using a reverse osmosis membrane apparatus 10, . The filtering device 100 for the desalination system is located between the raw water tank 20 and the reverse osmosis membrane device 10 and the fresh water purified through the reverse osmosis membrane device 10 is stored in the fresh water tank 30.

Particularly, the filtering device 100 for a seawater desalination system according to the present embodiment includes a filter housing 110, a filter member 120, a centrifugal force (centrifugal force), and a centrifugal force to effectively remove foreign substances such as organic substances, A generating unit 130, and a foreign matter cleaning unit 140.

In the filtering device 100 for a seawater desalination system, the foreign substances contained in the raw water are transferred to the inner wall of the filter housing 110 and collected by the centrifugal force generating part 130. Therefore, before the raw water is treated in the reverse osmosis membrane device 10 It is possible to further improve the removal rate of foreign substances contained in the raw water.

The filter housing 110 is installed on a pure water line 40 connecting the raw water tank 20 and the reverse osmosis membrane device 10 for transferring raw water and a filter member 120 and a centrifugal force generating unit 130 are installed .

The filter housing 110 includes a raw water inlet 111 connected to the purified water inlet 40 of the raw water tank 20, a purified water outlet 113 connected to the purified water inlet 40 of the reverse osmosis membrane module 10, A foreign matter collecting part 115 for collecting the foreign matter, and a foreign matter outflow preventing part 117 for preventing the foreign matter from collecting.

The filter housing 110 may further include a fluid flow inducing unit 119 provided in the raw water inlet 111.

The raw water inlet 111 is provided with a first opening and closing valve 111a for selectively introducing raw water supplied through the purified water line 40 into the filter member 120. In addition, the raw water inlet 111 may be detachably coupled to the filter member 120.

The purified water discharge part 113 is connected to the integer line 40 so as to be located on the same center line as the raw water inflow part 111 and has a second on-off valve 113a for selectively discharging purified water.

The foreign matter collecting part 115 is formed in a cylindrical shape so that one end is connected to the raw water inflow part 111 and the other end is connected to the purified water discharging part 113 and the centrifugal force generating part 130 is located at the center part. The foreign matter collecting part 115 is formed so as to extend from one end to the other end so as to secure a circulating space for the fluid to be conveyed by the centrifugal force generating part 130.

In addition, the foreign matter collecting part 115 is formed to be inclined gradually from the raw water inflow part 111 to the purified water discharge part 113, and a connection pipe 115a connected to the foreign matter cleaning part 140 is formed on one side of the bottom surface .

Particularly, the foreign matter collecting part 115 is provided with a collecting film 115b on the inner wall so that the foreign substances transferred by the centrifugal force generating part 130 can be collected more effectively. Accordingly, the foreign matter collecting unit 115 can reduce the foreign matter accumulated on the inner wall from being separated from the inner wall due to the flow velocity of the fluid.

The foreign matter leakage preventing portion 117 prevents the substances collected and accumulated in the foreign matter collecting portion 115 from flowing into the purified water discharging portion 113. To this end, the foreign matter leakage preventing part 117 according to the present embodiment is inclined to the inside of the foreign matter collecting part 115 at the inlet of the purified water discharging part 113.

The foreign matter leakage preventing portion 117 has a cylindrical shape and is formed so that its diameter progressively decreases toward the inside of the foreign matter collecting portion 115. In addition, the foreign matter leakage preventing portion 117 includes a first supporting member 117a to which the centrifugal force generating portion 130 is rotatably engaged.

 The fluid flow inducing unit 119 concentrates the flow of the first-order purified water that has passed through the filter member 120 into the centrifugal force generating unit 130. Accordingly, the centrifugal force generating unit 130 is smoothly rotated, and the rotational speed is further increased, thereby improving the effect of collecting the foreign matter.

The fluid flow inducing unit 119 includes a gradient inducing member 119a coupled to the inner surface of the raw water inlet 111 and a centrifugal force generating unit 119 extending from the gradient inducing member 119a on the center line of the raw water inlet 111, A linear guide member 119b into which the upper end of the centrifugal force generating unit 130 is inserted and a second support member 119c coupled to the inner surface of the centrifugal force generating unit 130 so as to be rotatable.

A water drainage hole portion 119d is formed in the inclined guide member 119a to prevent foreign matter from staying when the filter housing 110 is cleaned. Therefore, when the filter housing 110 is cleaned using the foreign substance cleaning unit 140, it is possible to prevent the foreign matter from remaining between the fluid flow guide unit 119 and the raw water inflow unit 111.

The linear guide member 119b generates a vortex in the fluid guided to the centrifugal force generating unit 130 so that a vortex generating protrusion 119e protrudes from the inner surface to further improve the rotational force of the centrifugal force generating unit 130. [ The vortex generating protruding portion 119e is protruded in a spiral shape.

The filter member 120 is installed in the raw water inlet 111 of the filter housing 110 and primarily removes foreign matter from the raw water flowing into the filter housing 110 through the purified phosphorus 40. A line filter may be used for the filter member 120 according to the present embodiment.

The primary purified water having passed through the filter member 120 and removed from the filter member 120 is guided to the centrifugal force generating unit 130 by the fluid flow inducing unit 119 to rotate the centrifugal force generating unit 130, The foreign substances are moved to the inner wall of the filter housing 110 and removed.

The centrifugal force generating unit 130 is rotatably coupled to the first support member 117a and the second support member 119c so as to rotate by a fluid flow of a first order constant passing through the fluid flow inducing unit 119. [

The centrifugal force generating unit 130 according to the present embodiment includes a rotating shaft member 131 rotatably coupled to the filter housing 110 so as to be positioned in the fluid flow direction of the filter housing 110, And a propeller member (133) coupled to the member (131).

One end portion and the other end portion of the rotating shaft member 131 are rotatably coupled to the first support member 117a and the second support member 119c so as to be located on the center line of the filter housing 110. [ In addition, a plurality of first coupling holes 131a are formed on the outer surface of the rotating shaft member 131 so that the propeller member 133 can be easily and stably fixed using bolts. The first coupling holes 131a are formed at regular intervals along the longitudinal direction of the rotating shaft member 131.

A plurality of propeller members 133 are coupled along the longitudinal direction of the rotating shaft member 131 and are rotated by the fluid conveyed from the filter housing 110 to be collected by the collecting membrane 115b of the foreign matter collecting unit 115 included in the fluid .

The propeller member 133 includes a hub 133a into which the rotating shaft member 131 is inserted, a wing 133b provided in the hub 133a, a gap retaining protrusion 133c protruding from the hub 133a, . The gap retaining protrusion 133c is supported on the hub 133a of the other propeller member 133 adjacent to the propeller member 133 so that the propeller member 133 can be engaged with the rotation shaft member 131 while maintaining an accurate and easy gap. do. The gap holding protrusion 133c is formed with a second coupling hole 133d aligned with the first coupling hole 131a.

Meanwhile, the filtering device 100 for a seawater desalination system according to an embodiment of the present invention removes foreign matter collected on the inner wall of the filter housing 110 through the foreign matter cleaning part 140. At this time, foreign matters remaining in the centrifugal force generating unit 130 and the filter member 120 are also removed by the foreign matter cleaning unit 140.

The foreign matter cleaning unit 140 according to the present embodiment includes a third opening and closing valve 141 provided in the raw water inlet 111 so as to be positioned between the first opening and closing valve 111a and the filter member 120, And a fourth opening / closing valve 143 provided in the filter housing 110 to supply the washing water through the connecting pipe 115a of the collecting unit 115. [ The fourth on-off valve 143 is connected to the backwash line 145 so that high-pressure washing water is supplied into the filter housing 110.

The filtering device for a seawater desalination system according to the present embodiment further includes a screen filter 150 for more effectively filtering the foreign matter of the fluid conveyed to the foreign matter collecting part 115 through the propeller member 133.

The screen filter 150 is formed in a cylindrical shape so as to cover the propeller member 133. The upper end of the screen filter 150 is inserted and fixed into the raw water inlet 111 and the lower end of the screen filter 150 is coupled to the foreign matter leakage preventing portion 117.

The operation of the filtering device for a seawater desalination system according to an embodiment of the present invention will now be described.

First, the raw water is supplied from the raw water tank 20 to the filter housing 110 in a state where the first on-off valve 111a and the second on-off valve 113a are opened. Then, raw water flowing into the filter housing 110 is primarily removed by the filter member 120 provided in the raw water inflow section 111.

The primary purified water that is purified while passing through the filter member 120 is guided to the centrifugal force generating unit 130 side through the fluid flow inducing unit 115 and the propeller member of the centrifugal force generating unit 130 (133) is rotated.

Then, the foreign substances contained in the first purified water are transferred to the inner wall of the foreign matter collecting part 115 by the centrifugal force generated by the rotation of the propeller member 133, and are adsorbed on the collecting film 115b and collected. The primary purified water through which the foreign substances are removed through the filter member 120 and the centrifugal force generating unit 130 is supplied to the reverse osmosis membrane apparatus 10 through the purified water discharge unit 113 to be subjected to a post-treatment process.

Since the filtering apparatus 100 for a desalination system for seawater desalination according to the present invention removes the foreign substances contained in the raw water by passing the raw water through the filter housing 110 before processing the raw water using the reverse osmosis membrane apparatus, .

In addition, the filtering device 100 for a seawater desalination system according to the present invention transfers foreign matter contained in raw water to the inner wall of the filter housing 110 by using the centrifugal force of the propeller member 133 rotated by the introduction of raw water Foreign matter and heavy metals can be removed more effectively.

In the filtering device 100 for a seawater desalination system according to the present invention, since the propeller member 133 generating the centrifugal force is rotated by the flow rate of the fluid passing through the filter member 120, the operation of the centrifugal force generating unit 130 A separate driving device for the vehicle is not required.

In addition, the filtering device 100 for a seawater desalination system according to the present invention can concentrate the inflow of the fluid into the centrifugal force generating unit 130 through the fluid flow inducing unit 119 and increase the flow rate of the fluid. Accordingly, the centrifugal force generated in the centrifugal force generating unit 130 is strong, so that foreign matter can be more efficiently removed from the fluid.

In addition, the filtering device 100 for a seawater desalination system according to the present invention is provided with the collecting film 115b on the inner wall of the foreign material collecting part 115, so that the collected foreign material can be prevented from being separated.

In the filtering device 100 for a seawater desalination system according to the present invention, the foreign matter leakage preventing part 117 is protruded to the inside of the foreign matter collecting part 115 in the purified water discharging part 113, The foreign matter collected on the inner wall of the purified water discharging part 113 can be minimized.

The filtering apparatus 100 for a desalination system for seawater desalination according to the present invention is configured to remove foreign matter adsorbed on the filter housing 110, the centrifugal force generating unit 130 and the filter member 120 through the foreign matter cleaning unit 140, As shown in FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

10: reverse osmosis membrane device 20: raw water tank
30: fresh water tank 40:
100: Filter device for seawater desalination system 110: Filter housing
111: raw water inflow section 113: purified water discharge section
115: Foreign matter collecting part 117: Foreign matter outflow preventing part
119: fluid flow inducing unit 120: filter member
130: centrifugal force generating unit 131: rotating shaft member
133: Propeller member 140: Foreign matter cleaner
150: Screen filter

Claims (5)

A filter housing installed on the purified water line and connected to the reverse osmosis membrane device; A filter member installed in the filter housing for primarily removing foreign matter of raw water flowing into the filter housing through the purified water line; And a centrifugal force generating unit for generating a centrifugal force to rotate the centrifugal force to rotate by the first order constant passing through the filter member and to transfer the foreign matter contained in the first order water to the inner wall of the filter housing through centrifugal force by rotation Comprising:
The filter housing includes:
A raw water inlet connected to the filter member and connected to the purified water line and having a first opening / closing valve;
A purified water outlet connected to the purified water line and having a second open / close valve;
And the other end is connected to the purified water discharging part and the other end is gradually expanded from one end to the other end so as to secure the circulation space of the primary water by the centrifugal force generating part, part; And
A foreign matter leakage preventing part inclinedly coupled to the inside of the foreign matter collecting part in the water discharging part to prevent foreign matter collected in the foreign matter collecting part from flowing into the purified water discharging part;
And a filtering device for the seawater desalination system.
delete The method according to claim 1,
Wherein the filter housing further comprises a fluid flow inducing unit for guiding the flow of the first order purified water passing through the filter member to the centrifugal force generating unit and the centrifugal force generating unit being rotatably coupled, Device.
The centrifugal force generation apparatus according to claim 1,
A rotatable shaft member retractably coupled to the filter housing to be positioned in a fluid flow direction of the filter housing; And
A plurality of propeller members coupled along the longitudinal direction of the rotating shaft member;
And a filtering device for the seawater desalination system.
5. The method of claim 4,
Wherein the rotating shaft member is formed with a first coupling hole for fixing the propeller member using a bolt,
Wherein the propeller member includes: a hub into which the rotating shaft member is inserted;
A wing coupled to the hub; And
A spacing maintaining protrusion extending from the hub to be spaced apart from each other by a second coupling hole communicating with the first coupling hole and supported by another propeller member adjacent to the first coupling hole;
And a filtering device for the seawater desalination system.

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