KR102445389B1 - composite filter having side stream type filter - Google Patents

Abstract

The posted content relates to a composite filter having a side-flow RO filter for accommodating in the filter housing an RO filter that filters heavy metals harmful to the human body, etc. contained in raw water such as tap water, and a pre-treatment filter that filters chlorine components in raw water. ,
A composite filter having a side flow type RO filter according to an embodiment of the present specification is
a nipple-type filter housing in which a raw water inlet is formed at one end, and a purified water outlet and a concentrated water outlet are formed at the other end;
a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing is moved in a radial direction from the outside to the inside, and the center is empty;
The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;
A central tube installed in the center of the RO filter and having a purified water movement path formed therein so as to collect purified water passing through the RO filter and move it to the purified water outlet; Composite filters are provided.

Description

Composite filter having side stream type filter

The present specification relates to a composite filter, and a side flow type RO filter for accommodating a RO filter that filters heavy metals harmful to the human body, etc. contained in raw water such as tap water, and a pre-treatment filter that filters chlorine components in raw water in a single filter housing. It relates to a composite filter with

In general, a reverse osmosis membrane filter (RO filter) refers to a filter for water purification by passing raw water such as tap water through a reverse osmosis membrane (RO membrane).

Reverse osmosis refers to a phenomenon in which water moves to a low concentration by forcibly applying pressure from a high concentration side to the opposite side of the osmosis phenomenon.

The reverse osmosis membrane has numerous microscopic pores of about 0.0001㎛, which is about one millionth the thickness of a human hair. As a result, foreign substances that are harmful to the human body such as metal ions, low molecular weight organic substances, bacteria, and bacteria contained in water are filtered, and only pure water molecules pass through the reverse osmosis membrane, thus filtering out impurities contained in water.

As such, the reverse osmosis membrane filter filters out foreign substances harmful to the human body, including heavy metal ions contained in water, so that purified water can be safely consumed.

The nipple type reverse osmosis membrane filter according to the prior art shown in FIG.

a filter housing 4 having a raw water inlet 1 through which raw water is introduced, a purified water outlet 2 through which purified purified water is discharged, and a concentrated water outlet 3 through which untreated concentrated water is discharged;

an RO filter (5) accommodated in the filter housing (4) and filtering foreign substances harmful to the human body included in the raw water introduced through the raw water inlet (1) for water purification;

It is installed in the center of the RO filter (5) in the form of a core, and the purified water passing passage (8) is formed inside to collect purified water passing through the RO filter (5) and move it to the purified water outlet (2). tube (6);

Formed on the outer periphery of the reverse osmosis membrane (5a) of the RO filter (5), the raw water flowing into the filter housing (4) through the raw water inlet (1) and the concentrated water not filtered by the RO filter (5) is mixed with each other A brine seal (7) is provided to prevent it.

In the case of the RO filter configured as described above, a brine seal ( 7) has a problem that the number of work steps to install is added, resulting in an increase in cost.

The reverse osmosis membrane 5a of the RO filter 5 may be damaged or damaged due to chlorine components contained in tap water. That is, when the reverse osmosis membrane 5a is damaged due to the chlorine component in the raw water, the performance of the RO filter 5 is lost or deteriorated, and the reliability is lowered, and the service life of the reverse osmosis membrane 5a is shortened and the cost of the expensive RO filter 5 is reduced. Due to frequent replacement, general consumers have the problem of having to bear an economic burden.

In consideration of this, an activated carbon filter (for example, referring to a carbon block filter) is installed and used on the upstream side of the RO filter 5 to filter chlorine components contained in raw water.

At this time, an activated carbon filter (not shown) is installed on the upstream side of the RO filter 5 installed in the filter housing 4 . Due to this, since the size of the RO filter 5 and the activated carbon filter installed in the limited space of the filter housing 4 is limited, the water purification effect of the RO filter 5 is reduced.

Application No. 10-2013-0071044 discloses a reverse osmosis filter having an alkali feed cartridge.

An embodiment of the present specification is a side-flow type that can extend the service life of the reverse osmosis membrane by removing the chlorine component from the tap water and then supplying it to the RO filter that filters heavy metals contained in tap water, etc. It relates to a composite filter with an RO filter.

The embodiment of the present specification relates to a composite filter having a side flow type RO filter to minimize the increase in the cost of the RO filter by reducing the number of work steps for installing the RO filter and the pre-treatment filter in the filter housing.

According to an embodiment of the present specification to achieve the above and other purposes of the present specification,

a nipple-type filter housing in which a raw water inlet is formed at one end, and a purified water outlet and a concentrated water outlet are formed at the other end;

a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing is moved in a radial direction from the outside to the inside, and the center is empty;

The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;

A central tube installed in the center of the RO filter and having a purified water movement path formed therein so as to collect purified water passing through the RO filter and move it to the purified water outlet; Composite filters are provided.

According to another embodiment of the present specification to achieve the above and other purposes of the present specification,

a filter housing in which an opening is formed;

A raw water inlet installed in the opening of the filter housing and formed in the center to receive raw water, a concentrated water outlet formed outside the raw water inlet and discharged concentrated water, and formed outside the concentrated water outlet and purified water is discharged a flow path conversion guide comprising a purified water outlet;

a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing through the raw water inlet is moved in a radial direction from the outside to the inside, and the center is empty;

The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;

A central tube installed in the center of the RO filter and having a purified water movement path formed therein so as to collect purified water passing through the RO filter and move it to the purified water outlet; Composite filters are provided.

According to another embodiment of the present specification to achieve the above and other purposes of the present specification,

a filter housing in which an opening is formed;

A purified water outlet installed in the opening of the filter housing and formed in the center to discharge purified water; a flow path conversion guide in the form of a triple pipe consisting of an inlet of raw water;

a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing through the raw water inlet is moved in a radial direction from the outside to the inside, and the center is empty;

The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;

A central tube installed in the center of the RO filter and having a purified water movement path formed therein so as to collect purified water passing through the RO filter and move it to the purified water outlet; Composite filters are provided.

The present specification configured as described above has the following advantages.

When heavy metals contained in tap water are filtered by an RO filter, chlorine components are removed from the tap water to prevent the reverse osmosis membrane from being damaged or damaged due to chlorine components. As it is unnecessary, it is possible to reduce the economic burden on consumers.

In addition, by minimizing the number of work processes for installing an RO filter and a pre-treatment filter (for example, an activated carbon filter or a sediment filter can be used) in one filter housing, the cost increase of the RO filter is reduced. price competitiveness and reliability.

1 is a schematic diagram of a nipple-type RO filter according to the prior art;
2 is a schematic view of a composite filter having a side flow type RO filter according to a preferred embodiment of the present specification;
3 is a schematic view of a composite filter having a side flow type RO filter according to another preferred embodiment of the present specification;
4 is a schematic diagram of a composite filter having a side flow type RO filter according to another preferred embodiment of the present specification.

Hereinafter, a composite filter having a side flow type RO filter according to a preferred embodiment of the present specification will be described in detail with reference to the accompanying drawings.

Referring to Figure 2, the composite filter having a side flow type RO filter according to an embodiment of the present specification is

A raw water inlet 10 formed at one end so that raw water such as tap water flows in from the outside, a purified water outlet 11 through which purified water is discharged, and a concentrated water outlet through which concentrated water (referring to wastewater) that is not purified is discharged ( 12) a nipple-type filter housing 13 formed at the other end;

It is accommodated in the filter housing 13, and the raw water flowing into the filter housing 13 moves radially from the outside to the inside, and prevents the membrane from being damaged (or damaged) of the RO filter 15 due to chlorine. Filters chlorine components contained in the raw water so as to be able to, and the pre-treatment filter 14 of a cylindrical shape with an empty center (for example, referring to a block-type activated carbon filter or a sediment filter);

The length along the reverse osmosis membrane (membrane) from the outer surface of the side flow type RO filter 15 accommodated in the empty center of the pre-treatment filter 14, the RO filter 15 in which the raw water passing through the pre-treatment filter 14 is wound in the form of a bag to move in the direction;

It is installed in the center of the RO filter 15 , passes through the RO filter 15 , is purified, and collects the purified water passing through the through hole 17a formed through in the radial direction to move it to the purified water outlet 11 . and a central tube 17 in which the purified water passage 16 is formed in the longitudinal direction.

At this time, preferably, the first supporter 20 surrounding the lower end of the pretreatment filter 14, and the RO filter 15 and the lower end of the central tube 17 are formed to form a concentric circle on the inside of the first supporter 20 a lower cap 22 made of a second supporter 21;

Except for the third supporter 23 surrounding the upper end of the pre-treatment filter 14 and extending the cylindrical portion 25a on the upper surface, and the concentrated water discharge hole 26 that is formed in the center and discharges the concentrated water from the RO filter 15 and an upper cap 25 made of a fourth supporter 24 formed concentrically inside the third supporter 23 so as to surround the upper end of the RO filter 15 .

The filter housing (13)

The raw water inlet 10 is formed on the bottom surface, the RO filter 15 and the pre-treatment filter 14 is accommodated in the body 27;

The purified water outlet 11 and the concentrated water outlet 12 are formed on the upper surface, and the cap 28 is connected by thermal fusion (for example, referring to rotational fusion) to the upper opening of the body 27; consists of (RO) Refers to the case where the filter 15, the pre-treatment filter 14 and the filter housing 13 are used for one-time use).

Although not shown in the drawing, the filter housing 13 is

The raw water inlet 10 is formed on the bottom surface, the RO filter 15 and the pre-treatment filter 14 is accommodated in the body 27 is accommodated;

The purified water outlet 12 and the concentrated water outlet 12 are formed on the upper surface, and the cap 28 is detachably coupled to the upper opening of the body 27; as it is provided, the RO filter 15 and the pre-treatment filter ( When 14) is consumed, after separating the cap 28 from the body 27, only the RO filter 15 and the pre-treatment filter 14 are replaced with new ones, so that the filter housing 13 can be reused. .

Hereinafter, an example of use of a composite filter having a side flow type RO filter according to an embodiment of the present specification will be described in detail.

As shown in FIG. 2 , raw water such as tap water supplied from the outside flows into the filter housing 13 through the raw water inlet 10 protruding from the bottom surface of the filter housing 13 .

The raw water flowing into the filter housing 13 is blocked from flowing directly into the lower end of the RO filter 15 and the pre-treatment filter 14 by the lower cap 22, and the pre-treatment filter 14 and the filter housing 13 According to the raw water movement passage 18 between the bodies 27, it moves upward in the drawing.

Since the raw water moved to the raw water transfer passage 18 passes from the outside to the inside of the pre-treatment filter 14, that is, in the radial direction, it is possible to filter the chlorine component contained in the raw water by the pre-treatment filter 14 . Raw water from which chlorine has been removed by passing through the pre-treatment filter 14 is moved to the RO filter 15 side.

As described above, after the chlorine component in the raw water is removed by the pretreatment filter 14 and the raw water is moved to the RO filter 15, the reverse osmosis membrane of the RO filter 15 is damaged (or damaged) due to the chlorine component. it can be prevented

Raw water passed through the pre-treatment filter 14 and moved toward the RO filter 15 moves longitudinally along the reverse osmosis membrane from the outer surface of the side-flow RO filter 15 wound in a bag shape.

That is, as raw water moving in the longitudinal direction along the reverse osmosis membrane of the RO filter 15 passes through a through hole of a fine size perforated in the reverse osmosis membrane, impurities harmful to the human body such as heavy metals contained in the raw water are filtered.

The purified water that has passed through the reverse osmosis membrane of the RO filter 15 passes through the through hole 17a of the central tube 17 built in the center of the RO filter 15 and is collected in the purified water passage 16 inside. .

The purified water collected in the purified water transfer passage 16 moves upward in the drawing, and is discharged to the outside through the purified water outlet 11 formed at the top of the cap 28 of the filter housing 13 .

On the other hand, the concentrated water (so-called wastewater) filtered because it does not pass through the micropores of the reverse osmosis membrane of the RO filter 15 is the outer periphery of the central tube 17 and the fourth supporter 24 of the upper cap 25. It is discharged from the RO filter 15 through the concentrated water discharge hole 26 formed in the center.

The concentrated water discharged from the RO filter 15 is discharged to the outside through the concentrated water outlet 12 formed at the top of the cap 28 of the filter housing 13 .

At this time, the purified water is moved to the purified water outlet 11 through the purified water transfer passage 16 of the central tube 17 by the O-ring 29 mounted on the upper outer periphery of the central tube 17, and the upper cap 25 It is possible to prevent mixing of the concentrated water moving to the concentrated water outlet 12 through the concentrated water outlet hole 26 of the.

In addition, raw water moved to the cap 28 side along the raw water flow passage 18 by the O-ring 19 mounted on the outer periphery of the cylindrical portion 25a of the upper cap 25 and the RO filter 15 from the upper cap ( It is possible to prevent the mixing of the concentrated water discharged through the concentrated water discharge hole 26 of 25).

As described above, according to the composite filter having a side flow type RO filter according to an embodiment of the present specification, impurities harmful to the human body such as heavy metals contained in raw water such as tap water are filtered by the RO filter 15. Raw water As the chlorine component in the chlorine component is removed by the pretreatment filter 14 and then moved toward the RO filter 15, it is possible to prevent the reverse osmosis membrane from being damaged or broken due to the chlorine component. Accordingly, it is possible to significantly extend the service life of the reverse osmosis membrane.

In addition, raw water flowing into the filter housing 13 by an O-ring 19 mounted on the outer periphery of the cylindrical portion 25a extending on the upper surface of the upper cap 25 and moving to the cap 28 side, and the RO filter 15 ) to prevent mutual mixing of the concentrated water passing through the concentrated water discharge hole 26 of the upper cap 25, as in the conventional RO filter shown in FIG. 1 , the outer surface of the RO filter 5 Since the work process of separately attaching the brine seal 7 to the brine seal 7 is unnecessary, the number of work processes for manufacturing the RO filter can be minimized.

A composite filter having a side flow type RO filter according to another embodiment of the present specification shown in FIG. 3 is

a filter housing 13 comprising a body 27 and a cap 28 integrally or separately connected to the body 27 and having an opening in the cap 28;

A raw water inlet (a) installed in the opening of the filter housing 13 and formed in the center to receive raw water, a concentrated water outlet (c) formed outside of the raw water inlet (a) and discharged concentrated water, and concentrated water A flow path conversion guide 30 formed outside the outlet (c) and comprising a purified water outlet (b) through which purified water is discharged;

The raw water accommodated in the filter housing 13, passing through the raw water inlet (a) and flowing into the filter housing 13, is moved from the outside to the inside in the radial direction, and the pre-treatment filter 14 of a cylindrical shape with an empty center ;

The side flow type RO filter 15 accommodated in the empty center of the pretreatment filter 14, the raw water passing through the pretreatment filter 14 moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter 15 wound in the form of a bag made;

a central tube 17 installed in the center of the RO filter 15 and having a purified water movement passage 16 formed therein to collect purified water passing through the RO filter 15 and move it to the purified water outlet (b);

A check valve (33) that connects the upper end of the central tube (17) and the purified water outlet (b) of the flow path switching guide (30), and is opened by the pressure of purified water discharged from the purified water passage (16) to the purified water outlet (b) is provided with a connecting pipe (34) that is built in.

The connector 34 is

Purified water mounted on the upper cylindrical part of the connection pipe 34 coupled to the flow path conversion guide 30 and moved from the purified water passage 16 through the connection pipe 34 to the purified water outlet (b), and the RO filter (15) an upper O-ring (not shown) for preventing the mixing of concentrated water passing through the concentrated water discharge hole 26 of the upper cap 25;

The purified water is mounted on the lower cylindrical part of the connecting pipe 34 coupled to the purified water transfer passage 16, and is moved from the purified water transfer passage 16 to the connecting tube 34, and the upper cap 25 from the RO filter 15 ) of a lower O-ring (not shown) for preventing the mixing of the concentrated water moving to the concentrated water discharge hole 26; may be further provided.

Although not shown in the drawing, the filter housing 13 (referring to a push type coupling method) is

A locking jaw 31 protruding in an annular shape is further provided on the outer periphery of the opening of the filter housing 13, and when the opening of the filter housing 13 is coupled to the connector (not shown) in a one-touch manner, the locking jaw 31 It is removably locked to a locking jaw (not shown) formed in the connector to correspond to the .

Although not shown in the drawing, the filter housing 13 (referring to a turn type coupling method) is

It further includes a wing portion 32 protruding symmetrically to the outer periphery of the opening of the filter housing 13, so that the opening of the filter housing 13 is coupled to a connector (not shown) in a one-touch manner and then rotated at an arbitrary angle. In this case, the wing portion 32 is removably locked in a locking groove (not shown) formed in the connector to correspond to the wing portion 32 .

Although not shown in the drawing, the filter housing 13 is

The body 27 in which the pre-treatment filter 14 and the RO filter 15 are built-in;

The flow path switching guide 30 is mounted on the opening, the cap 28 detachably coupled to the upper opening of the body 27; consists of. As a result, when the RO filter 15 and the pre-treatment filter 14 are consumed, the cap 28 is separated from the body 27 and only the RO filter 15 and the pre-treatment filter 14 are replaced with new ones. The filter housing 13 can be reused.

The filter housing (13)

The body 27 in which the pre-treatment filter 14 and the RO filter 15 are built-in;

The flow path conversion guide 30 is mounted on the opening, and the cap 28 is heat-sealed and connected to the upper opening of the body 27; 13) refers to the case where it is used for one-time use).

According to the above configuration, as shown in FIG. 3 , as the filter housing 13 is fastened to the connector (not shown) in a one-touch method by a push type coupling method, raw water such as tap water supplied from the outside is removed from the filter housing. It is possible to flow into the filter housing 13 by the flow path switching guide 30 built into the opening of the cap 28 of (13).

The raw water flowing into the filter housing 13 through the raw water inlet (a) formed in the center of the flow path conversion guide 30 passes through the raw water movement path between the pre-treatment filter 14 and the body 27 of the filter housing 13 ( 18) on the drawing, it will move downwards.

Since the raw water moved to the raw water transfer passage 18 passes from the outside to the inside of the pre-treatment filter 14, that is, in the radial direction, the chlorine component contained in the raw water can be filtered by the pre-treatment filter 14 . Raw water from which chlorine has been removed by passing through the pre-treatment filter 14 is moved to the RO filter 15 side.

The raw water moved to the RO filter 15 moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the side flow type RO filter 15 wound in a bag shape.

That is, purified water that has passed through the fine reverse osmosis membrane of the RO filter 15 passes through the through hole 17a of the central tube 17 built in the center of the RO filter 15 and passes through the internal purified water passage 16. is collected in

The purified water collected in the purified water transfer passage 16 moves upward in the drawing, and the check valve 33 of the connection pipe 34 mounted on the upper end of the central tube 17 is opened by the pressure of the purified water. will be converted to Therefore, purified water passing through the connection pipe 34 in the purified water transfer passage 16 is moved toward the connector (not shown) through the purified water outlet b of the flow path conversion guide 30 .

On the other hand, the concentrated water (so-called wastewater) filtered because it cannot pass through the fine reverse osmosis membrane of the RO filter 15 passes through the concentrated water discharge hole 26 formed in the center of the fourth supporter 24 of the upper cap 25 Thus, it is moved toward the connector (not shown) through the concentrated water outlet (c) of the flow path conversion guide 30 .

At this time, the water purification passage ( In 16), the purified water passing through the connection pipe 34 and moving toward the purified water outlet (b) of the flow path conversion guide 30, and the concentrated water discharge hole 26 of the upper cap 25 pass through the flow path conversion guide 30 ) can be prevented from mixing with the concentrated water moving toward the concentrated water outlet (c).

The composite filter having a side flow type RO filter according to another embodiment of the present specification shown in FIG.

a filter housing 13 having an opening;

A purified water outlet (b) installed in the opening of the filter housing (13) and formed in the center for discharging purified water, a concentrated water outlet (c) formed outside the purified water outlet (b) and discharging concentrated water, and concentrated water A flow path conversion guide 30 in the form of a triple tube formed outside the outlet (c) and comprising a raw water inlet (a) through which raw water is introduced;

The raw water accommodated in the filter housing 13, passing through the raw water inlet (a) and flowing into the filter housing 13, is moved from the outside to the inside in the radial direction, and the pre-treatment filter 14 of a cylindrical shape with an empty center ;

The side flow type RO filter 15 accommodated in the empty center of the pretreatment filter 14, the raw water passing through the pretreatment filter 14 moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter 15 wound in the form of a bag made;

a central tube 17 installed in the center of the RO filter 15 and having a purified water movement passage 16 formed therein to collect purified water passing through the RO filter 15 and move it to the purified water outlet (b);

A check valve (33) that connects the upper end of the central tube (17) and the purified water outlet (b) of the flow path switching guide (30), and is opened by the pressure of purified water discharged from the purified water passage (16) to the purified water outlet (b) is provided with a connecting pipe (34) that is built in.

Euro conversion guide (30)

It may further include; pads (d, f) that are respectively mounted to open and close to the raw water inlet (a) and the concentrated water outlet (c), and a check valve (e) that is openably mounted to the purified water outlet (b). .

At this time, a purified water outlet (b) installed inside the opening of the filter housing (13) and formed in the center to discharge purified water, and a concentrated water outlet (c) formed outside of the purified water outlet (b) and discharging concentrated water; The configuration except for the triple tube type flow path conversion guide 30 formed outside the concentrated water outlet (c) and consisting of the raw water inlet (a) through which raw water is introduced is a composite filter having a side flow type RO filter shown in FIG. Since it is substantially the same as the configuration of , a detailed description of the configuration thereof is omitted, and overlapping reference numerals mean the same configuration.

According to the above configuration, as shown in FIG. 4 , as the filter housing 13 is fastened to the connector (not shown) in a one-touch method by a turn-type coupling method, raw water such as tap water supplied from the outside is converted into a flow path. It can be introduced into the filter housing 13 by the guide 30 .

Raw water is introduced into the filter housing 13 through the raw water inlet (a) formed on the outermost side of the flow path conversion guide 30 in the form of a triple pipe. At this time, since the check valve d mounted on the raw water inlet (a) is pressed downward in the drawing by the raw water pressure passing through the raw water inlet (a), the raw water inlet (a) can be opened.

Raw water passing through the raw water inlet (a) moves under the filter housing 13 in the drawing along the raw water movement passage 18 between the pre-treatment filter 14 and the body 27 of the filter housing 13. .

Raw water moved under the filter housing 13 passes through the pre-treatment filter 14 and then passes through the fine reverse osmosis membrane of the RO filter 15, so that it is purified. The purified water treated by the RO filter 15 passes through the through hole 17a of the central tube 17 and is collected in the purified water passage 16 .

The purified water collected in the purified water transfer passage 16 passes through the connection pipe 34 mounted on the upper end of the central tube 17 and moves to the purified water outlet (b) side of the triple pipe type flow path conversion guide 30 . At this time, the check valve (e) mounted on the purified water outlet (b) is in an open state when the filter housing 13 is fastened to a connector (not shown).

On the other hand, the concentrated water filtered because it cannot pass through the fine reverse osmosis membrane of the RO filter 15 passes through the concentrated water discharge hole 26 formed in the center of the fourth supporter 24 of the upper cap 25, and then in the form of a triple tube. of the flow path conversion guide 30 is moved to the concentrated water outlet (c) side. At this time, the check valve (f) mounted on the concentrated water outlet (c) is in an open state when the filter housing 13 is fastened to a connector (not shown).

Here, although the foregoing specification has been described with reference to a preferred embodiment, those skilled in the art may vary the content of the present specification within the scope without departing from the spirit and scope of the present specification as set forth in the following claims. It will be understood that modifications and changes are possible.

10; raw water inlet
11; purified water outlet
12; Concentrated water outlet
13; filter housing
14; pre-filter
15; RO filter
16; purified water passage
17; central tube
18; enemy movement path
19; O-ring
20; 1st supporter
21; 2nd supporter
22; lower cap
23; 3rd supporter
24; 4th supporter
25; upper cap
26; Concentrated water outlet
27; body
28; cap
30; Euro Conversion Guide
31; stumbling block
32; wing
33; check valve
34; connector

Claims (16)

delete a filter housing in which an opening is formed;
A raw water inlet installed in the opening of the filter housing and formed in the center to receive raw water, a concentrated water outlet formed outside the raw water inlet and discharged concentrated water, and formed outside the concentrated water outlet and purified water is discharged a flow path conversion guide comprising a purified water outlet;
a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing through the raw water inlet is moved in a radial direction from the outside to the inside, and the center is empty;
The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;
a central tube installed in the center of the RO filter and having a purified water movement path formed therein to collect purified water passing through the RO filter and move it to the purified water outlet;
a lower cap comprising a first supporter surrounding the lower end of the pretreatment filter, and a second supporter formed concentrically inside the first supporter so as to surround the lower end of the RO filter and the central tube;
The inside of the third supporter so as to surround the upper end of the RO filter except for a third supporter that surrounds the upper end of the pretreatment filter and has a cylindrical portion extending on the upper surface, and a concentrated water discharge hole that is formed in the center and discharges concentrated water from the RO filter. In the composite filter having a side flow type RO filter having; an upper cap made of a fourth supporter formed concentrically with:
a connection pipe that connects the upper end of the central tube and the purified water outlet of the flow path switching guide and has a built-in check valve that is opened by the pressure of purified water discharged from the purified water flow passage to the purified water outlet; Composite filter with flow type RO filter. a filter housing in which an opening is formed;
A purified water outlet installed in the opening of the filter housing and formed in the center to discharge purified water; a flow path conversion guide in the form of a triple pipe consisting of an inlet of raw water;
a pre-treatment filter of a cylindrical shape accommodated in the filter housing, the raw water flowing into the filter housing through the raw water inlet is moved in a radial direction from the outside to the inside, and the center is empty;
The side flow type RO filter accommodated in the empty center of the pretreatment filter, the raw water passing through the pretreatment filter moves in the longitudinal direction along the reverse osmosis membrane from the outer surface of the RO filter wound in the form of a bag;
a central tube installed in the center of the RO filter and having a purified water movement path formed therein to collect purified water passing through the RO filter and move it to the purified water outlet;
a lower cap comprising a first supporter surrounding the lower end of the pretreatment filter, and a second supporter formed concentrically inside the first supporter so as to surround the lower end of the RO filter and the central tube;
The inside of the third supporter so as to surround the upper end of the RO filter except for a third supporter that surrounds the upper end of the pretreatment filter and has a cylindrical portion extending on the upper surface, and a concentrated water discharge hole that is formed in the center and discharges concentrated water from the RO filter. In the composite filter having a side flow type RO filter having; an upper cap made of a fourth supporter formed concentrically with:
a connection pipe that connects the upper end of the central tube and the purified water outlet of the flow path switching guide and has a built-in check valve that is opened by the pressure of purified water discharged from the purified water flow passage to the purified water outlet; Composite filter with flow type RO filter. delete delete 4. The method of claim 2 or 3, wherein the connecting pipe is
The purified water that is mounted on the upper cylindrical part of the connection pipe coupled to the flow path conversion guide and moves from the purified water passage passage to the purified water outlet through the connection pipe, and the concentrated water discharge hole of the upper cap from the RO filter an upper O-ring to prevent mixing of concentrated water passing through;
The purified water that is mounted on the lower cylindrical part of the connecting pipe coupled to the purified water passage, and moves from the purified water passage to the connecting pipe, and the concentrated water that moves from the RO filter to the concentrated water discharge hole of the upper cap. A composite filter having a side flow type RO filter, characterized in that it further comprises; a lower O-ring to prevent mixing. delete delete delete delete The method of claim 2 or 3, wherein the pre-processing filter is
A composite filter having a side flow type RO filter, characterized in that an activated carbon filter or a sediment filter is used. The method of claim 2, wherein the filter housing is
A locking jaw protruding in an annular shape from the outer periphery of the opening of the filter housing is further provided, so that when the opening of the filter housing is coupled to the connector in a one-touch manner, it is detachably attached to a locking jaw formed in the connector to correspond to the locking jaw. Composite filter having a side flow type RO filter, characterized in that it is locked. The method of claim 3, wherein the filter housing is
A wing portion protruding symmetrically from the outer periphery of the opening of the filter housing is further provided, so that when the opening of the filter housing is coupled to the connector in a one-touch manner and then rotated at an arbitrary angle, the wing portion corresponds to the wing portion of the connector Composite filter having a side flow type RO filter, characterized in that it is removably locked in a locking groove formed in the. The method of claim 3, wherein the flow path conversion guide is
A composite filter having a side-flow RO filter, characterized in that it further comprises a check valve operably mounted on the raw water inlet and the concentrated water outlet, respectively, and a check valve operably mounted on the purified water outlet. The method of claim 2 or 3, wherein the filter housing is
a body in which the pre-treatment filter and the RO filter are installed;
A composite filter having a side flow type RO filter, characterized in that it comprises; the flow path conversion guide is mounted on the opening, the cap detachably coupled to the upper opening of the body. The method of claim 2 or 3, wherein the filter housing is
a body in which the pre-treatment filter and the RO filter are installed;
A composite filter having a side-flow RO filter, characterized in that it comprises a; the flow path switching guide is mounted on the opening, the cap connected to the heat-sealed upper opening of the body.

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