KR101634097B1 - RO filter for side stream type - Google Patents

Abstract

The disclosed contents can increase the feed rate of the raw water to the reverse osmosis membrane sheet to increase the recovery rate of the purified water.
The lateral flow type reverse osmosis membrane filter according to an embodiment of the present invention includes:
A filter housing in which a raw water port, a purified water port and a concentrated water port are formed at one side;
An RO filter accommodated in the filter housing for purifying raw water flowing through the raw water port and discharging the purified water to the center and discharging the filtered concentrated water outward;
A central tube disposed at the center of the RO filter so as to open at its upper and lower ends and collecting purified water purified by the RO filter through a through hole formed in a radial direction;
A raw water moving tube formed at a central portion of the raw water moving passage and formed between the raw water moving pipe and the central tube so as to form a purified water moving passage;
The raw water distributor supplies a part of raw water flowing through the raw water port to the upper end of the RO filter and a part of raw water flowing through the raw water port is supplied to the RO filter Supplying the purified water to the raw water moving pipe to supply the purified water to the bottom port, and supplying a purified water collected in the purified water moving passage to the purified water port.

Description

[MEANS FOR SOLVING PROBLEMS] A side flow type reverse osmosis membrane filter (RO filter for side stream type)

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reverse osmosis membrane filter, and more particularly, to a sidestream flow reverse osmosis membrane filter for increasing a feed rate of raw water to a reverse osmosis membrane sheet to increase the recovery rate of purified water.

Generally, RO filter is composed of 0.0001 micron reverse osmosis membrane, and it is used to filter heavy metals such as lead and arsenic as well as sodium and various pathogenic bacteria. On the other hand, as the raw water moves in the transverse direction with respect to the reverse osmosis membrane sheet, the residence time of the raw water in contact with the surface of the reverse osmosis membrane sheet becomes short.

As a result, the amount of purified water (generally 3: 1 ratio) discharged through the RO filter after passing through the RO filter is relatively small with respect to the inflow amount of the raw water flowing into the RO filter, .

The general RO filter 1 shown in Fig. 1 shows a spiral wound type module in which various kinds of films are spirally wound around a central tube 4. The RO filter 1 has raw water spacers 3 disposed between filter members 2 and wound around the central pipe 4 in a spiral manner and an outer film made of a nonwoven fabric or the like 5).

The purified water passing through the surface of the filter member 2 of the raw water introduced through the raw water spacer 3 moves along the center of the filter member 2 and passes through the through hole 6 formed in the center pipe 4 And is discharged through a purified water port 7 formed at one side of the central pipe 4.

The concentrate water which has not passed through the surface of the filtration member 2 among the raw water introduced through the raw water spacer 3 continuously flows through the raw water spacer 3 and flows into the concentrated water port (8).

2, the raw water such as tap water flows into both ends of the RO filter 1 through the raw water ports 1a and 1b formed on the upper and lower sides, and the raw water is supplied to the RO filter 1 And passes through the openings of the upper and lower holders 9 and 10 fixed to the upper and lower ends of the RO filter 1 and the upper and lower ends of the RO filter 1, respectively. The raw water flowing into the RO filter 1 is subjected to a water treatment while passing through the filter member 2. The purified water purified by the water treatment is collected in the center pipe through the through hole 6 of the center pipe 4, 7). On the other hand, the concentrated water filtered by the filter member 2 passes through the filter member 2 in the radial direction and is discharged to the outside through the upper concentrated water port 8.

As described above, the raw water ports 1a, 1b formed on the upper and lower sides to receive the raw water, the purified water port 7 for discharging the purified purified water, and the concentrated water port 8 for discharging the filtered concentrated water, And is formed in the housing (H).

Accordingly, since the hose (not shown) is connected to the filter housing H, the operation is inconvenient and the hose is formed in the same shape and size. Therefore, Respectively.

Patent Publication No. 10-2011-7006005 discloses a " bamboo reverse osmosis membrane ".

The embodiment of the present invention relates to a sidestream flow reverse osmosis membrane filter capable of increasing the feed amount of raw water to the reverse osmosis membrane sheet by allowing raw water to flow into both ends of a cylindrical reverse osmosis membrane sheet to increase the throughput of purified water.

The embodiments of the present invention provide a side flow type reverse osmosis membrane filter for improving workability of forming a raw water port, a purified water port, and a concentrated water port on one side of a filter housing and connecting a hose (or tube) .

Embodiments of the present invention relate to a sidestream flow reverse osmosis membrane filter that allows a user to easily replace a water filter or the like because the filter housing can be attached to and detached from the head connector by one touch.

The lateral flow type reverse osmosis membrane filter according to an embodiment of the present invention includes:

A filter housing in which a raw water port, a purified water port and a concentrated water port are formed at one side;

An RO filter accommodated in the filter housing for purifying raw water flowing through the raw water port and discharging the purified water to the center and discharging the filtered concentrated water outward;

A central tube disposed at the center of the RO filter so as to open at its upper and lower ends and collecting purified water purified by the RO filter through a through hole formed in a radial direction;

A raw water moving tube formed at a central portion of the raw water moving passage and formed between the raw water moving pipe and the central tube so as to form a purified water moving passage;

The raw water distributor supplies a part of raw water flowing through the raw water port to an upper end of the RO filter and a part of raw water flowing through the raw water port is supplied to the RO filter Supplying the purified water to the raw water moving pipe to supply the purified water to the bottom port, and supplying a purified water collected in the purified water moving passage to the purified water port.

The lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention includes:

A filter housing having an open upper end;

An RO filter accommodated in the filter housing for purifying the incoming raw water to discharge the purified water to the center, and to discharge the filtered concentrated water outward;

A central tube disposed at the center of the RO filter so as to open at its upper and lower ends and collecting purified water purified by the RO filter through a through hole formed in a radial direction;

A raw water moving tube formed at a central portion of the raw water moving passage and formed between the raw water moving pipe and the central tube so as to form a purified water moving passage;

The raw water distributor supplies a part of raw water to the upper end of the RO filter and supplies a part of the raw water to the lower end of the RO filter to supply the raw water to the raw water moving pipe And moving the purified water collected in the water passage to the filter housing opening;

A raw water inlet which is installed at an opening of the filter housing and which is formed at the center and supplies raw water to the raw water distributor; and a raw water outlet which is located outside the raw water inlet for moving the purified water passing through the raw water distributor to the opening of the filter housing And a concentrated water outlet formed at the opposite side of the purified water discharge port for moving the concentrated water discharged from the RO filter to the opening of the filter housing. Thereby providing a fluid type reverse osmosis membrane filter.

The lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention includes:

A filter housing having an open upper end;

An RO filter accommodated in the filter housing for purifying the incoming raw water to discharge the purified water to the center, and to discharge the filtered concentrated water outward;

A central tube disposed at the center of the RO filter so as to open at its upper and lower ends and collecting purified water purified by the RO filter through a through hole formed in a radial direction;

A raw water moving tube formed at a central portion of the raw water moving passage and formed between the raw water moving pipe and the central tube so as to form a purified water moving passage;

A raw water inlet installed at an opening of the filter housing for supplying raw water to an upper end of the RO filter and the raw water moving pipe; and a raw water inlet for discharging purified water collected in the purified water moving passage, A flow path switching guide comprising a purified water discharge port formed annularly outside the raw water inlet and a concentrated water discharge port formed annularly inside the raw water inlet for discharging the concentrated water filtered by the RO filter to the outside;

A raw water / purified water classifier mounted on the upper end of the raw water moving pipe and the central tube, the raw water / purified water classifier supplying part of raw water out of the raw water flowing into the upper end of the RO filter to the raw water moving passage, Is moved to a purified water outlet of the flow path switching guide.

The raw water distributor

A first passage for supplying a part of raw water flowing through the raw water port to the upper end of the raw water moving pipe,

And a second passage communicating with the first passage and supplying a part of raw water flowing into the first passage to an upper end of the RO filter.

The RO filter

The RO filter is installed at an upper end of the RO filter and is mixed with raw water flowing into the upper end of the RO filter through the raw water port and the raw water distributor and the concentrated water discharged from the RO filter to the concentrated water port An upper holder,

And a lower holder installed at a lower end of the RO filter and adapted to prevent raw water from passing through the lower end of the raw water moving pipe and flowing into the lower end of the RO filter and mixing the concentrated water discharged from the RO filter with each other, do.

The RO filter

The RO filter is installed at an upper end of the RO filter and flows through the raw water inlet and the raw water distributor and flows into the upper end of the RO filter to prevent mixing of the concentrated water discharged from the RO filter to the concentrated water outlet. An upper holder,

And a lower holder installed at a lower end of the RO filter and adapted to prevent raw water from passing through the lower end of the raw water moving pipe and flowing into the lower end of the RO filter and mixing the concentrated water discharged from the RO filter with each other, do.

The RO filter

The RO water filter is mounted on the upper end of the RO filter to prevent the raw water flowing through the raw water inlet of the channel switching guide and flowing into the upper end of the RO filter and the concentrated water discharged from the RO filter into the concentrated water outlet, An upper holder,

And a lower holder installed at a lower end of the RO filter to prevent raw water from passing through the lower end of the raw water moving pipe and flowing into the lower end of the RO filter and mixing concentrated water discharged from the RO filter and moving in an outward direction, .

The raw /

A first passage through which some raw water flows in the raw water flowing into the upper end of the RO filter through the passage switching guide,

A second passage communicating with the first passage for supplying the raw water flowing into the first passage to the upper end of the raw water moving pipe,

And a third passage formed outside the second passage for supplying a purified water collected in the purified water transfer passage to a purified water discharge port of the passage switching guide.

The embodiment of the present invention configured as described above has the following advantages.

The raw water is introduced into both ends of the cylindrical reverse osmosis membrane sheet to increase the amount of raw water supplied to the reverse osmosis membrane sheet to increase the throughput of the purified water, thereby enhancing practicality and merchantability.

In addition, a raw water port, a purified water port, and a concentrated water port are formed at one side of the filter housing, and the operator can easily connect the hose to these ports without confusion, thereby improving work efficiency.

Further, since the filter housing accommodating the RO filter can be attached and detached to and from the head connector with one touch, the water filter and the like can be easily replaced, thereby ensuring reliability and convenience.

1 is a schematic diagram of a typical RO filter,
2 is a cross-sectional view of an RO filter according to the prior art,
3 (a) and 3 (b) are cross-sectional views of a side flow type reverse osmosis membrane filter according to an embodiment of the present invention,
4 is a view showing a raw water distributor for distributing raw water flowing into a filter housing to upper and lower ends of an RO filter in a sidestream flow reverse osmosis membrane filter according to an embodiment of the present invention,
5 (a) and (b) are views showing a state in which a flow path switching guide is installed in an opening of a filter housing in a lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention,
6 (a) and 6 (b) show a state in which the flow path switching guide shown in Figs. 5 (a) and 5 (b) is combined with the flow path switching guide and the raw water distributor,
Figures 7 (a) and 7 (b) show the coupling of the head connector to the filter housing shown in Figures 5 (a) and (b)
8 (a) and 8 (b) are views of a side flow type reverse osmosis membrane filter according to another embodiment of the present invention,
Fig. 9 is a view of the flow path switching guide shown in Figs. 8 (a) and 8 (b)
FIG. 10 is a diagram of the raw / integer classifier shown in FIG. 8 (a, b)
11 (a) and (b) are views showing the coupling of the head connector to the filter housing shown in Figs. 8 (a) and (b)

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to illustrate the present invention in a manner that allows a person skilled in the art to easily carry out the invention. It is not intended to limit the technical spirit and scope of the present invention.

In the lateral flow type reverse osmosis membrane filter according to an embodiment of the present invention shown in Figs. 3 (a), (b), and (b)

A filter housing (H) in which a raw water port (11), a purified water port (12) and a concentrated water port (13) are formed on one side;

The raw water which is received in the filter housing H and flows through the raw water port 11 is subjected to a water treatment by a filter member (membrane sheet) 2, the purified water is discharged toward the center, An RO filter (15) for discharging the RO filter outward;

And a central tube (12) disposed at the center of the RO filter (15) with its upper and lower ends opened to collect purified water purified by the RO filter (15) through a through hole (14) tube 16;

A raw water moving pipe 17 which is opened at both upper and lower ends so as to be spaced apart from the inside of the central tube 16. The raw water moving pipe 17 forms a raw water moving passage 18 at the center, And the central tube (16);

A raw water distributor 20 installed at the upper ends of the raw water moving pipe 17 and the central tube 16 and a raw water distributor 20 for distributing a part of raw water flowing through the raw water port 11 to the RO filter 15 And supplies a part of the raw water flowing through the raw water port 11 to the raw water moving passage 18 of the raw water moving pipe 17 to supply to the lower end of the RO filter 15, And the purified water collected in the passage (19) is supplied to the purified water port (12) through the purified water moving hole (20a).

The raw water distributor (20)

A first passage 21 for supplying a part of the raw water flowing through the raw water port 11 to the upper end of the raw water moving passage 18 of the raw water moving pipe 17,

And a second passage 22 communicating with the first passage 21 and supplying a part of raw water flowing into the first passage 21 to an upper end of the RO filter 15. [

The RO filter (15)

The RO filter 15 is installed at the upper end of the RO filter 15 and includes raw water flowing into the upper end of the RO filter 15 through the raw water port 11 and the raw water distributor 20, An upper holder 9 for preventing the concentrated water discharged from the concentrated water port 13 from being mixed with each other,

The raw water that is installed at the lower end of the RO filter 15 and flows into the lower end of the RO filter 15 through the lower end of the raw water moving pipe 17 and the mixed water of the concentrated water discharged from the RO filter 15 And a lower holder 10 for preventing the lower holder 10 from being damaged.

In the drawing, reference character C denotes a head connector in which an opening of the filter housing H is detachably coupled by a one-touch method.

Hereinafter, the use of the lateral flow type reverse osmosis membrane filter according to one embodiment of the present invention will be described in detail with reference to the accompanying drawings.

4, when raw water such as tap water flows into the filter housing H through the raw water port 11, part of the raw water is supplied to the first passage (not shown) of the raw water distributor 20, And is moved downward along the raw water moving passage 18 of the raw water moving pipe 17 since the raw water is supplied to the upper end of the raw water moving pipe 17 through the raw water moving pipe 21.

The raw water that has been moved to the lower side of the raw water transfer passage 18 flows into the lower end of the RO filter 15 so that the raw water is moved upward in the drawing of FIG. 2).

At the same time, part of the raw water flowing through the raw water port 11 is supplied to the upper end of the RO filter 15 through the second passage 22 communicated with the first passage 21. Therefore, the raw water is purified by the filtration member 2 of the RO filter 15 while being moved downward on the drawing of Figs. 3A and 3B.

The purified water purified by the filtration member 2 of the RO filter 15 passes through the through hole 14 of the central tube 16 disposed at the center of the RO filter 15. The purified water passing through the through hole 14 is moved upward in the drawing along the water flow path 19 between the raw water moving pipe 17 and the central tube 16.

The purified water moved to the upper portion of the water flow passage 19 is moved to the upper portion of the filter housing H through the water transfer hole 20a of the raw water distributor 20. That is, the purified water passing through the raw water distributor 20 passes through the purified water port 12 of the filter housing H and is discharged to the outside.

Raw water passing through the raw water distributor 20 flows into the upper and lower ends of the RO filter 15 and the concentrated water filtered by the filter member 2 passes through the RO filter 15 and the filter housing H through the concentrated water port 13 of the filter housing H and is discharged to the outside.

A part of raw water flowing into the filter housing H through the raw water port 11 is supplied to the upper end of the RO filter 15 by the raw water distributor 20 as described above. At the same time, a part of raw water flowing into the filter housing (H) is supplied to the lower end of the RO filter (15) by the raw water distributor (20) and the raw water moving pipe (17). As a result, the amount of raw water supplied to the filtration member 2 of the RO filter 15 is increased, so that the amount of purified water recovered and purified by the RO filter 15 can be increased.

5 (a) and 7 (b) to 7 (a) and 7 (b), the side flow type reverse osmosis membrane filter according to another embodiment of the present invention,

A filter housing (H) having an open upper end;

An RO filter (15) accommodated in the filter housing (H), treating the raw water flowing through the opening with a filtering member (2) to discharge the purified water to the center, and discharging the filtered concentrated water outwardly;

And a central tube (12) disposed at the center of the RO filter (15) with its upper and lower ends opened to collect purified water purified by the RO filter (15) through a through hole (14) tube 16;

A raw water moving pipe 17 formed to be spaced apart from the inside of the central tube 16 and having upper and lower ends opened and a raw water moving pipe 17 formed at the center of the raw water moving passage 18, And the central tube (16);

A raw water distributor 20 installed at the upper ends of the raw water moving pipe 17 and the central tube 16. The raw water distributor 20 supplies a part of raw water to the upper end of the RO filter 15, And supplies a part of the raw water to the upper end of the raw water moving passage 18 of the raw water moving pipe 17 so as to supply the raw water to the lower end of the RO filter 15. The purified water collected in the purified water moving passage 19 is supplied to the filter housing H, (Passing through the water outlet 24 of the channel switching guide 26 to be described later and then moving to the opening);

A raw water inlet 23 installed at the opening of the filter housing H and formed at the center to supply raw water to the first passage 21 of the raw water distributor 20, A purified water discharge port 24 formed outside the raw water inlet port 23 to move the purified water passing through the purified water transfer hole 20a to the opening of the filter housing H, And a concentrated water discharge port 25 formed on the opposite side of the purified water discharge port 24 to move the concentrated water discharged into the filter housing H to the opening of the filter housing H.

The RO filter (15)

Raw water that is mounted on the upper end of the RO filter 15 and flows into the upper end of the RO filter 15 through the raw water inlet 23 and the second passage 22 of the raw water distributor 20, An upper holder 9 for preventing the concentrated water discharged outward from the concentrated water outlet 15 from being mixed with the concentrated water moved to the concentrated water outlet 25,

Raw water which is mounted on the lower end of the RO filter 15 and flows into the lower end of the RO filter 15 through the lower end of the raw water moving passage 18 of the raw water moving pipe 17, And a lower holder 10 for preventing the concentrated water discharged in the direction of the lower holder 10 from being mixed with each other.

Hereinafter, the use of the lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The flow path switching guide 26 having the raw water inlet 23, the purified water discharge port 24 and the concentrated water discharge port 25 as shown in Figs. 5 (a) and 7 (b) And is mounted on the raw water distributor 20 and the upper holder 9 mounted on the top of the RO filter 15.

A check valve C4 mounted to open and close the raw water passage C3 of the head connector C is connected to the valve connector H of the filter connector housing As the water is lifted upwards in the drawing by the upper end, the raw water passage C3 is opened.

The raw water (tap water or the like) flowing into the raw water passage C3 of the head connector C flows into the raw water inlet 23 of the flow path changeover guide 26. A part of the raw water flowing into the raw water inlet 23 is supplied to the upper end of the raw water moving passage 18 of the raw water moving pipe 17 through the first passage 21 of the raw water distributor 20. That is, the raw water moved downward along the raw water moving passage 18 is supplied to the lower end of the RO filter 15.

As a result, the raw water moving in the upward and downward direction along the RO filter 15 is purified by the filtering member 2, and the purified water purified water passes through the through hole 14 of the central tube 16 And is collected in the water passage 19. The raw water flowing into the lower end of the RO filter 15 and the concentrated water moving in the outward direction of the RO filter 15 are mixed with each other by the lower holder 10 mounted at the lower end of the RO filter 15 .

Part of the raw water flowing into the raw water inlet 23 passes through the second passage 22 of the raw water distributor 20 and is supplied to the upper end of the RO filter 15. That is, the raw water supplied to the upper end of the RO filter 15 is moved in the downward direction along the RO filter 15 in the drawing, and thus purified water is treated by the filter member 2, Through the through hole 14 of the water passage 14 and collected in the water passage 19. At this time, the raw water flowing into the upper end of the RO filter 15 by the upper holder 9 mounted on the upper end of the RO filter 15 and the opening of the filter housing H after being filtered by the RO filter 15 It is possible to prevent mutual mixing of the concentrated water to be moved.

The purified water collected in the purified water transfer passage 19 is moved upward in the drawing and passes through the purified water transfer hole 20a of the raw water distributor 20 and then flows into the purified water discharge port 24 ). At this time, the water is discharged to the outside through the purified water passage (C1) of the head connector (C) detachably coupled to the opening of the filter housing (H).

The concentrated water filtered by the RO filter 15 is moved upward in the drawing along the path between the RO filter 15 and the filter housing H, And then passes through the water outlet 25. At this time, the concentrated water moved to the concentrated water discharge port (25) is discharged to the outside through the concentrated water passage (C2) of the head connector (C).

The lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention shown in Figs. 8 (a), (b) and (l)

A filter housing (H) having an open upper end;

An RO filter (15) accommodated in the filter housing (H), for purifying the incoming raw water to discharge the purified water to the center, and to discharge the filtered concentrated water outward;

A central tube 16 disposed at the center of the RO filter 15 with its upper and lower ends opened to collect purified water purified by the RO filter 15 through a through hole 14 formed in the radial direction, );

A raw water moving pipe 17 formed to be spaced inside the central tube 16 and having upper and lower ends opened; a raw water moving pipe 17 formed at the center of the raw water moving passage 18; ) And the central tube (16);

A raw water inlet 23 installed at an opening of the filter housing H for supplying raw water to the upper end of the RO filter 15 and the raw water moving pipe 17, A purified water outlet 24 formed in an annular shape outside the raw water inlet 23 for discharging the purified water collected in the purified water transfer passage 19 to the outside, And a concentrated water outlet (25) formed annularly inside the raw water inlet (23) for discharging the raw water to the outside.

A raw water / purified water classifier 27 mounted on the upper ends of the raw water moving pipe 17 and the central tube 16 and the raw water / The purified water is supplied to the raw water moving passage 18 and the purified water collected in the purified water moving passage 19 is moved to the purified water discharge opening 24 of the channel switching guide 26.

The RO filter (15)

Raw water which is mounted on the upper end of the RO filter 15 and flows into the upper end of the RO filter 15 through the raw water inlet 23 of the channel switching guide 26 and the RO water 15 discharged from the RO filter 15 An upper holder 9 for preventing the concentrated water moved to the concentrated water outlet 25 from being mixed with each other,

Raw water which is mounted on the lower end of the RO filter 15 and flows into the lower end of the RO filter 15 through the lower end of the raw water moving passage 18 of the raw water moving pipe 17, And a lower holder 10 for preventing the concentrated water moved to the concentrated water outlet 25 from being mixed with each other.

The raw / quasi-

A first passage 27a through which some raw water flows from the raw water flowing into the upper end of the RO filter 15 through the passage changing guide 26,

A second passage 27b communicating with the first passage 27a and supplying the raw water flowing into the first passage 27a to the upper end of the raw water moving passage 18 of the raw water moving pipe 17,

And a third passage 27c formed outside the second passage 27b and supplying a purified water collected in the purified water transfer passage 19 to the purified water discharge port 24 of the passage switching guide 26. [

Hereinafter, the use of the lateral flow type reverse osmosis membrane filter according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

When the opening of the filter housing H is engaged with the head connector C as shown in Figs. 8A and 8B, the upper end of the passage switching guide 26 is connected to the head connector C, Is connected to the concentrated water passage (C2) formed at the center of the water passage (C). At this time, the structure for detachably coupling the filter housing H to the head connector C is a technical content used in the related art, and thus a detailed description thereof will be omitted.

The raw water flowing into the raw water passage C3 of the head connector C flows into the raw water inlet 23 of the flow path switching guide 26. [ A part of the raw water flowing into the raw water inlet 23 is supplied to the upper end of the RO filter 15 and a part of the raw water flowing through the raw water inlet 23 is supplied to the first passage of the raw water / Passes through the first passage 27a and the second passage 27b, and is supplied to the raw water moving passage 18 of the raw water moving pipe 17.

Therefore, the raw water supplied to the upper end of the RO filter 15 is moved in the downward direction along the RO filter 15, and thus purified by the filtration member 2. The purified water purified water passes through the through-hole 14 of the central tube 16 and is collected in the water passage 19. The concentrated water flowing into the concentrated water outlet 25 of the flow path changeover guide 26 filtered by the RO filter 15 and the concentrated water flowing into the RO filter 15 And the upper holder 9 mounted on the upper end of the upper holder 9.

The purified water collected in the purified water transfer passage 19 is moved upward in the figure and passes through the third passage 27c of the raw water / (24). The purified water passing through the purified water discharge port 24 is discharged to the outside through the purified water passage C1 of the head connector C. [

The concentrated water filtered by the RO filter 15 is discharged outward from the RO filter 15 and flows along the path between the RO filter 15 and the filter housing H to the concentrated water And is moved to the discharge port 25. The concentrated water moved to the concentrated water outlet 25 passes through the concentrated water passage C2 of the head connector C and is discharged to the outside.

On the other hand, the raw water moved downward along the raw water moving passage 18 is supplied to the lower end of the RO filter 15. Therefore, the raw water, which is moved upward in the drawing along the RO filter (15), is purified by the filtration member (2). The purified water purified water passes through the through-hole 14 of the central tube 16 and is collected in the purified water passage 19. At this time, the raw water flowing into the lower end of the RO filter 15 and the concentrated water discharged from the RO filter 15 can be prevented from being mixed with each other by the lower holder 10 mounted on the lower end of the RO filter 15 .

11; Raw water port
12; Integer port
13; Concentrated water port
14; Through-hole
15; RO filter
16; Central tube
17; Enemy moving pipe
18; A moving water passage
19; Water passage
20; Distributor of raw water
21; The first passage
22; The second passage
23; Raw water inlet
24; Water outlet
25; Concentrated water outlet
26; Euro conversion guide
27; Source / Integer Classifier

Claims (1)

A filter housing having an open upper end;
An RO filter accommodated in the filter housing for purifying the incoming raw water to discharge the purified water to the center, and to discharge the filtered concentrated water outward;
A central tube disposed at the center of the RO filter so as to open at its upper and lower ends and collecting purified water purified by the RO filter through a through hole formed in a radial direction;
A raw water moving tube formed at a central portion of the raw water moving passage and formed between the raw water moving pipe and the central tube so as to form a purified water moving passage;
The raw water distributor supplies a part of the raw water to the upper end of the RO filter and a part of the raw water to be supplied to the lower end of the RO filter to supply the raw water to the raw water moving pipe And transferring the purified water collected in the water passage to the filter housing opening;
A raw water inlet which is installed at an opening of the filter housing and which is formed at the center and supplies raw water to the raw water distributor; and a raw water outlet which is located outside the raw water inlet for moving the purified water passing through the raw water distributor to the opening of the filter housing And a concentrated water outlet formed on the opposite side of the purified water discharge port for discharging the concentrated water discharged from the RO filter to the outside;
The RO filter is installed at an upper end of the RO filter and flows through the raw water inlet and the raw water distributor and flows into the upper end of the RO filter to prevent mixing of concentrated water discharged from the RO filter to the concentrated water outlet. Upper holder;
And a lower holder mounted at a lower end of the RO filter to prevent raw water flowing through the lower end of the RO moving tube and flowing into the lower end of the RO filter and mixing the concentrated water discharged from the RO filter with each other, Side flow type reverse osmosis membrane filter.

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