KR101364155B1 - Filter assembly - Google Patents

Abstract

The present invention relates to a mechanism capable of filtering incoming raw water, the filter assembly comprising: a filter for filtering raw water; A housing containing the filter; A cap coupled with the housing; A connector coupled to the filter and the cap and having an inflow path through which raw water is introduced, an outflow path through which purified water filtered by the filter flows out, and a discharge path through which concentrated water is discharged; A first fixing member for fixing the connector to the filter; And a second fixing member for fixing the connector to the filter. The filter includes: a filter member for filtering raw water; And a coupling member positioned above the filter member and coupled to the connector. It includes, The coupling member is a first moving passage for entering the raw water flowing through the inflow path to the upper end of the filter member, the raw water entering the filter member through the first moving passage filtered integer And a second moving passage for moving to the outflow passage, wherein a third moving passage for moving the concentrated water to the discharge passage comprises a gap between the outer circumferential surface of the filter and the inner circumferential surface of the housing and the inner circumferential surface of the cap and the coupling member. It is characterized by being maintained by the gap between the outer peripheral surface of, thereby simplifying the structure of the mold provides a technique for reducing the manufacturing cost of the filter. According to the present invention, not only the manufacturing of the mold is easy, but also the manufacturing cost of the product is reduced and the work efficiency between the manufacturing processes is improved.

Description

[0001] FILTER ASSEMBLY [0002]

The present invention relates to a mechanism capable of filtering incoming raw water.

Reverse osmosis membrane filter is a device that converts raw raw water into purified water by using reverse osmosis phenomenon. Reverse osmosis is the reverse application of natural osmotic phenomena, which means that when a pressure of more than osmotic pressure is applied to a high concentration solution, water on the concentrated solution side escapes to the dilute solution. Reverse osmosis membrane filter is a semi-permeable membrane in the form of a film with a pore size of about 0.0001 μm, and is mainly used for the manufacture of ultrapure water used in precision industries or laboratories such as desalination of seawater to convert fresh water into fresh water or production of highly integrated memory semiconductors. In recent years, it has been widely used in household water purifiers.

The reverse osmosis membrane filter used in the conventional water purification apparatus has a problem in that the manufacturing cost is increased as the discharge passage of the purified water and the discharge passage of the concentrated water are separately provided. In addition, there is a disadvantage that when connecting a plurality of filters to form a water purification system, a connection member such as a hose is required separately. Moreover, the additional connection member requires a large space in the installation of the water purifying device, and thus there is a problem in that workability between installation processes is reduced. In addition, the conventional reverse osmosis membrane filter has a problem in that the replacement procedure of the filter cartridge is complicated and difficult for a general user without expertise.

As the conventional reverse osmosis membrane filter causes the above-mentioned problems, in the Republic of Korea Utility Model Publication No. 20-0415015, "reverse osmosis membrane filter, and water purification system using the same" has been proposed in the following (hereinafter, Referred to as 'prior art').

However, according to the prior art, there is a lot of difficulties in the production of the mold because the connector structure of the flow path in which raw water flows into and out of the filter is formed integrally, which increases the production cost of the product and increases the defective rate There is a problem that the reliability of the.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object thereof is to provide a technique for reducing the manufacturing cost of a filter by simplifying the structure of a mold.

In order to achieve the above object, a filter assembly of a preferred embodiment of the present invention includes a filter for filtering raw water; A housing containing the filter; A cap coupled with the housing; A connector coupled to the filter and the cap and having an inflow path through which raw water is introduced, an outflow path through which purified water filtered by the filter flows out, and a discharge path through which concentrated water is discharged; A first fixing member for fixing the connector to the filter; And a second fixing member for fixing the connector to the filter. The filter includes: a filter member for filtering raw water; And a coupling member positioned above the filter member and coupled to the connector. It includes, The coupling member is a first moving passage for entering the raw water flowing through the inflow path to the upper end of the filter member, the raw water entering the filter member through the first moving passage filtered integer And a second moving passage for moving to the outflow passage, wherein a third moving passage for moving the concentrated water to the discharge passage comprises a gap between the outer circumferential surface of the filter and the inner circumferential surface of the housing and the inner circumferential surface of the cap and the coupling member. It is characterized by being maintained by the gap between the outer peripheral surface of the.

In addition, the first fixing member and the second fixing member is formed in a cylindrical shape, the inner diameter of the second fixing member is smaller than the inner diameter of the first fixing member so that the second fixing member is inserted into the first fixing member. It is characterized by being.

In addition, the interval generated from the difference between the inner diameter of the first fixing member and the outer diameter of the second fixing member is characterized in that it constitutes a passage connecting the inflow path and the first moving path.

On the other hand, the interval generated from the difference between the outer diameter of the first fixing member and the inner diameter of the cap is characterized in that it constitutes a passage connecting the third moving passage and the discharge passage.

In order to achieve this object, the filter assembly of another embodiment of the present invention is characterized by including a pipe portion for positioning the second moving passage in the inner center of the first moving passage.

As described above, according to the present invention, since the internal space of the connector is partitioned by the first fixing member and the second fixing member, the mold structure of the connector is simplified. Therefore, not only the manufacturing of the mold is easy, but also the manufacturing cost of the product is reduced and the work efficiency between the manufacturing process is improved.

1 is a cross-sectional view of a filter assembly according to the present invention.
2 is a cross-sectional view of the filter assembly excluding the connector according to the present invention.
3 is a perspective view of a filter assembly according to the invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

1 shows a filter assembly 10 according to an embodiment of the invention. The filter assembly 10 includes a filter 100, a housing 200, a cap 300, a connector 400, a first fixing member 500, a second fixing member 600, and the like.

The filter 100 is composed of a filter member 110 and the coupling member 120, the filter member 110 is a reverse osmosis membrane provided inside the filter 100, by forming a reverse osmosis pressure between the operation of the filter 100 Raw water flowing into the filter 100 may be converted into purified water.

Coupling member 120 is coupled to the top of the filter member 110 serves to support the filter member 110 so as not to be separated from the filter 100. In addition, the outer peripheral surface of the coupling member 120 is provided with a plurality of grooves for installing the O-ring (O-ring), it is preferable to insert the O-ring so that the raw water does not leak into the gap connected to the first fixing member (500). Do. In addition, since the first moving passage 121 through which the raw water moves and the second moving passage 122 through which the concentrated water moves due to the coupling member 120 are separated, there is no need to install a separate sealing member for fractionation. Coupling member 120 is composed of a first moving passage 121, a second moving passage 122, a pipe portion 123 and the like.

The first movement passage 121 is a passage connected to the inside of the coupling member 120 through a passage formed by the first fixing member 500 and the second fixing member 600 from the inflow passage 410 of the raw water. That is, the gap generated due to the difference between the inner diameter of the first fixing member 500 and the outer diameter of the second fixing member 600 may constitute a passage connecting the inflow passage 410 and the first moving passage 121. have. Raw water conveyed through the first moving passage 121 may approach the upper end of the filter member 110 to enter the filter member 110. That is, since the raw water transferred from the outside enters the filter member 110 directly through the first moving passage 121 without passing through another bypass, the possibility of contamination of raw water that may occur inside the filter assembly 10 may be eliminated. Can be. In addition, the raw water is filtered by the reverse osmosis pressure inside the filter member 110 is converted into purified water, it is transferred to the second moving passage 122 may be discharged to the purified water outlet passage 420.

The second moving passage 122 is a flow passage formed between the outlet passage 420 of the purified water from the hollow portion of the filter member 110. The raw water entering the filter member 110 through the first moving passage 121 is filtered and converted into purified water, and the converted purified water is transferred to the outflow passage 420 of the purified water through the second moving passage 122. .

Pipe portion 123 is a pipe connecting between the inner central portion of the coupling member 120 from the hollow portion of the filter member 110. The pipe part 123 is inserted into the inner center of the coupling member 120, and a second fixing member 600 exists between the pipe part 123 and the connector 400, so that the pipe part 123 and the connector 400 are present. Can be connected. In addition, as the pipe part 123 is inserted into the inner center of the coupling member 120, the second moving path 122 may be located at the inner center of the first moving path 121.

On the other hand, the pipe 123 is preferably extended from the top of the coupling member 120 to a suitable length for smooth connection with the connector 400. In addition, the pipe 123 is preferably made of a cylindrical shape so as to be connected to the connector 400. And the outer peripheral surface of the pipe portion 123 is provided with a plurality of grooves for installing the O-ring, it is preferable to insert the O-ring so that the purified water does not leak into the gap connected to the second fixing member 600. Pipe portion 123 according to the present invention can reduce the installation requirements of the additional movement path by unifying the flow path of the purified water conveyed from the filter member 110.

The housing 200 is a space for accommodating the filter member 110. The shape of the housing 200 may vary depending on the shape of the filter member 110, but is preferably formed in a cylindrical shape. In addition, a protruding portion that may be inserted into the cap 300 may be formed at the front end of the opening of the housing 200.

Cap 300 is a space for accommodating the coupling member 120, it is preferably formed in a multi-stage cylindrical wrap around the outer peripheral surface of the coupling member 120. In addition, the cap 300 is located at the upper end of the housing 200 and accommodates the pipe part 123. A lower end of the cap 300 may be provided with a groove that may be coupled to the housing 200, and a sealing member may be additionally provided to prevent leakage from a connection between the cap 300 and the housing 200. In addition, the outer circumferential surface of the cap 300 is provided with a plurality of grooves for installing the O-ring, it is preferable to insert the O-ring so that the concentrated water does not leak into the gap connected to the connector.

The connector 400 is a space for inducing the inflow of raw water, the outflow of purified water, and the discharge of concentrated water, and may be coupled to an upper portion of the cap 300. The connector 400 includes an inflow passage 410, an outflow passage 420, and a discharge passage 430.

The inflow passage 410 is a passage through which external raw water flows into the filter assembly 10, and the inflow passage 410 is connected to the first moving passage 121. That is, the raw water entering the inflow path 410 may be transferred to the lower end through the first moving passage 121 to enter the upper end of the filter member 110.

The outlet passage 420 is a passage through which the purified water filtered in the filter member 110 is discharged to the outside of the filter assembly 10, and the outlet passage 420 is connected to the second movement passage 122. That is, the purified water filtered in the filter member 110 may be transferred to the outlet passage 420 through the second movement passage 122 and discharged to the outside of the filter assembly 10.

The discharge passage 430 is a passage through which the filtered water not filtered in the filter member 110 is discharged to the outside of the filter assembly 10, and the discharge passage 430 is connected to the third moving passage 700.

 The first fixing member 500 and the second fixing member 600 are positioned inside the connector 400 to fix the connector 400 and the filter 100. Therefore, the appearance of the first fixing member 500 and the second fixing member 600 is preferably formed in a cylindrical shape so as to be able to be combined with the inside of the connector 400 and the filter 100 well. In addition, the first fixing member 500 and the second fixing member 600 divide the internal space of the connector 400, and the first moving passage 121, which is a passage through which the introduced raw water moves, and the first movement of the purified water. The second movement passage 122 and the concentrated water may constitute a portion of the third movement passage 700. That is, as the first fixing member 500 and the second fixing member 600 contribute to constituting the flow path inside the connector 400, it is necessary to manufacture a separate space for the flow path inside the connector 400. none. Therefore, since the structure of the mold for manufacturing the connector 400 is simplified, the fabrication of the filter assembly is easy and the work efficiency between the manufacturing processes can be improved.

On the other hand, the third movement passage 700 is a flow path formed by the interval between the outer peripheral surface of the filter 100 and the inner peripheral surface of the housing 200 and the interval between the inner peripheral surface of the cap 300 and the outer peripheral surface of the coupling member 120. In addition, the gap generated from the difference between the outer diameter of the first fixing member 500 and the inner diameter of the cap 300 constitutes a passage connecting the third movement passage 700 and the discharge passage 430. Therefore, the concentrated water which is not filtered in the filter member 110 may be discharged from the lower end of the filter member 110 and transferred to the discharge path 430 along the third moving path 700.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

10: filter assembly
100: filter
110: filter member
120: coupling member
121: first passage
122: second moving passage
123: pipe section
200: housing
300 cap
400: Connector
410: funnel
420: runoff
430: discharge path
500: first fixing member
600: second fixing member
700: third passage

Claims (5)

A filter for filtering raw water;
A housing containing the filter;
A cap coupled with the housing;
A connector coupled to the filter and the cap and having an inflow path through which raw water is introduced, an outflow path through which purified water filtered by the filter flows out, and a discharge path through which concentrated water is discharged;
A first fixing member for fixing the connector to the filter; And
A second fixing member for fixing the connector to the filter; Lt; / RTI >
The filter includes:
A filter member for filtering raw water; And
A coupling member positioned above the filter member and coupled to the connector; Lt; / RTI >
The coupling member may include a first moving passage for entering raw water introduced through the inflow passage to an upper end of the filter member, and purified water filtered into the outflow passage by raw water entering the filter member through the first moving passage. Has a second movement path for movement,
A third moving passage for moving the concentrated water to the discharge passage is maintained by the distance between the outer peripheral surface of the filter and the inner peripheral surface of the housing and the interval between the inner peripheral surface of the cap and the outer peripheral surface of the coupling member,
The first fixing member and the second fixing member are formed in a cylindrical shape, the inner diameter of the second fixing member is smaller than the inner diameter of the first fixing member so that the second fixing member is inserted into the first fixing member. Characterized by
Filter assembly.
delete The method of claim 1,
The gap generated from the difference between the inner diameter of the first fixing member and the outer diameter of the second fixing member is configured to constitute a passage connecting the inflow passage and the first moving passage.
Filter assembly.
The method of claim 1,
The interval generated from the difference between the outer diameter of the first fixing member and the inner diameter of the cap constitutes a passage connecting the third moving passage and the discharge passage.
Filter assembly.
The method of claim 1,
The filter assembly
A pipe part for locating the second moving path at an inner center of the first moving path; ≪ RTI ID = 0.0 >
Filter assembly.

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