KR100912186B1 - Washing Device for A Filter in A Water Purifier - Google Patents

Abstract

The present invention relates to a backwashing device for a water purifier filter, and in particular, by using a five-way valve, a four-way valve, a three-way valve, a two-way valve selectively, the internal element of the filter by the combination of the flow path connected to each valve It relates to a device capable of cleaning the water filter in a backwash manner without taking out. According to the present invention, the five-way valve is connected to the inlet flow passage to which the water to be purified and the first filter flow passage connected to the filter and the second filter flow passage, the output flow passage through which the purified water is discharged through the filter and , Backwashing flow path where backwash water is discharged is connected.In water purification, 5-way valve connects the inlet flow path and the first filter flow path, the second filter flow path and the outflow flow path, and blocks the backflushing flow path. The 5-way valve is provided with a backwashing device for a water purifier filter, which connects the inflow passage and the second filter passage, connects the first filter passage and the backflushing passage, and blocks the outlet passage.

Backwash, water purifier, filter, valve, flow path

Description

Washing Device for A Filter in A Water Purifier

1 is a block diagram of an apparatus for backwashing a water filter according to an embodiment of the present invention.

2 is a block diagram of an apparatus for backwashing a water filter according to still another embodiment of the present invention.

3 is a block diagram of an apparatus for backwashing a water filter according to still another embodiment of the present invention.

※ Explanation of code for main part of drawing ※

10: acquisition flow path 11: first filter flow path

12: second filter passage 13: water extraction passage

14 Back Flushing Euro 15 Connection Euro

20: 5-way valve 21: 4-way valve

22: 3-way valve 23, 23 ': 1st and 2nd 2-way valve

30: filter 40: carbon filter

The present invention relates to a backwashing device for a water purifier filter, and in particular, by using a five-way valve, a four-way valve, a three-way valve, a two-way valve selectively, the internal element of the filter by the combination of the flow path connected to each valve It relates to a device capable of cleaning the water filter in a backwash manner without taking out.

Filters used in water purifiers include a micro filter for purifying sand and oxidized suspended substances in water with pores of about 10 micrometers, and a hollow fiber membrane filter for removing bacteria and fine suspended substances.

These filters need to be replaced periodically. Especially, in the case of water purifiers used in regions where high turbidity raw water is supplied due to local characteristics, turbidity-causing substances are caught by such filters, which shortens the life of the filters.

Therefore, it is necessary to periodically clean the filter to extend the life of the filter. The cleaning method of such a filter generally includes a method of removing the filter from a device such as a water purifier and washing it, but it is cumbersome for the user and is not preferable for filter hygiene.

Alternatively, there is a method of backflushing by connecting the flow path of raw water to the filter through the inlet of the backflushing oil, but the flow of the raw water must be separated from the water purifier and connected back to the inlet of the backflushing oil. Discomfort arises in that the flow path supplied with is separated from the backflushing inlet and connected to the flow path inlet supplied with raw water.

The present invention has been made in view of the above point, by using a five-way valve, four-way valve, three-way valve, two-way valve selectively, the internal element of the filter by the combination of the flow path connected to each valve It is an object of the present invention to provide a device capable of cleaning the water purifier filter in a backwashing manner without taking out.

In order to achieve the above object, a backwashing apparatus for a water purifier filter according to an embodiment of the present invention is a backwashing apparatus for a water purifier filter including a 5-way valve, wherein the 5-way valve includes water to be purified. The inflow channel is connected to the first filter channel and the second filter channel connected to the filter, the water outlet channel through which the purified water is discharged through the filter, and the backflushing channel through which the backwash water is discharged, are purified. The five-way valve connects the inflow passage and the first filter passage, connects the second filter passage and the outlet passage and blocks the backflushing passage. It is characterized in that for connecting the two filter flow paths, connecting the first filter flow path and the backflushing flow path and blocking the water discharge flow path.

In addition, the apparatus for backwashing a water purifier filter according to another embodiment of the present invention is a backwashing apparatus for a water purifier filter including a 4-way valve and a 3-way valve, wherein the water to be purified is introduced into the 4-way valve. A first filter passage and a second filter passage connected to the flow passage are connected to the filter, and the three-way valve is connected to an outlet passage through which the purified water is discharged, and a back flushing passage through which backwash water is discharged. The four-way valve and the three-way valve are communicatively connected through a connection channel, so that the four-way valve connects the inflow channel and the first filter channel and connects the second filter channel and the connection channel at water purification. The three-way valve connects the connection flow path and the water discharge flow path and cuts off the backflushing flow path. During backwashing, the four-way valve connects the inflow flow path and the second filter flow path and the first filter flow path. And a connection flow path, wherein the 3-way valve connects the connection flow path and the backflushing flow path and blocks the water discharge flow path.

In addition, the apparatus for backwashing a water purifier filter according to another embodiment of the present invention includes a three-way valve and a two-way valve, and the backwashing apparatus for a water purifier filter, wherein the water to be purified flows into the three-way valve. And a first filter channel and a second filter channel connected to the filter, wherein the two-way valve includes a first two-way valve and a second two-way valve, and the first two-way valve includes purified water. The discharged water flow passage is connected and communicatively connected to the three-way valve through a connection flow passage, and the second two-way valve is installed on a backflushing flow passage discharged from the backwash water and connected to the filter. The three-way valve connects the inflow passage and the first filter passage and connects the second filter passage and the connection passage, and the first two-way valve connects the connection passage and the outlet passage, and the second two way. Val Blocks the backflushing flow path, the three-way valve connects the inlet flow path and the second filter flow path and blocks the first filter flow path and the connection flow path during backwashing, and the first two-way valve is the discharge water flow path. Shut off, the second two-way valve is characterized in that for opening the backflushing flow path.

Preferably, the controller further includes a five-way valve, a four-way valve, a three-way valve, and a two-way valve.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the configuration of the backwashing device of the water filter according to an embodiment of the present invention. The apparatus according to the present invention can be embedded in a general water purifier, and the technical idea of the present invention is to effectively backwash the filter built in the water purifier by a combination of various valves and a flow path connected to each valve. Therefore, in the following, the description of the general contents related to the water purifier will be omitted, and the configuration of the valve and the flow path will be described in detail.

1A and 1B, the apparatus for backwashing a water purifier filter according to an exemplary embodiment of the present invention is a five-way valve 20 and flow paths connected to the five-way valve, and an inflow channel 10 and a first filter channel. (11), a second filter passage 12, a water discharge passage 13, and a backflushing passage 14 are included.

The filter 30 is a general pretreatment filter built in the water purifier, and there is no particular limitation on the type of the filter 30. Similarly, the carbon filter 40 is only presented as an example of the post-treatment filter, and thus it does not need to be particularly limited thereto. In addition, since the technical idea of the present invention is implemented at the previous stage of the carbon filter 40, the description related to the filter will be omitted below.

1A and 1B, the purified water state and the backflushing state of the water purifier filter will be described in detail.

In the embodiment of FIGS. 1A and 1B using the 5-way valve 20, the 5-way valve 20 has an inlet flow path 10 through which water to be purified is introduced and a first filter flow path connected to the filter 30 ( 11) and the second filter passage 12, the water outlet passage 13 through which the purified water is discharged through the filter 30, and the backflushing passage 14 through which the backwash water is discharged are respectively connected.

Referring to FIG. 1A, at the time of purification, the 5-way valve 20 connects the inflow passage 10 and the first filter passage 11 and the second filter passage 12 and the outlet passage 13. . It is preferable to block the backflushing flow passage 14. Of course, water does not flow into the backflushing passage 14 in this configuration.

Therefore, the water flowing in through the inflow passage 10 is introduced into the filter 30 through the first filter passage 11 and purified, and is discharged through the second filter passage 12 again, and the exit passage 13 After entering and processing the carbon filter 40 through the purified water passage 16 is discharged.

That is, the movement path of the purified water is " inflow channel 10-> 5-way valve 20-> first filter channel 11-> filter 30-> second filter channel 12-> 5-way valve 20-> water discharge passage 13-> carbon filter 40-> purified water passage 16 ".

Referring to FIG. 1B, during backflushing, the 5-way valve 20 connects the inflow passage 10 and the second filter passage 11 and connects the first filter passage 12 and the back flushing passage 14. Connect it. It is preferable to block the water discharge passage 13. Of course, water does not flow into the water discharge passage 13 in this configuration.

Therefore, the water flowing through the inflow channel 10 flows into the filter 30 through the second filter channel 12 to backwash the filter 30, and is discharged through the first filter channel 11 again. Discharged through the backflushing flow passage 14.

That is, the movement path of the water in the back-flushing state is " inflow passage 10-> 5-way valve 20-> second filter passage 12-> filter 30-> first filter passage 11- > 5-way valve 20-> backflushing flow path 14 ".

2A and 2B, the water purification state and the backflushing state of the water purifier filter in the apparatus for backwashing the water purifier filter according to another embodiment of the present invention will be described in detail.

In the embodiment of FIGS. 2A and 2B using the four-way valve 21 and the three-way valve 22, the four-way valve 21 is connected to the inlet passage 10 and the filter 30 through which water to be purified is introduced. The first filter flow passage 11 and the second filter flow passage 12 are connected to each other, and the 3-way valve 22 has a water discharge passage through which purified water is discharged, and a backflushing passage 14 through which backwash water is discharged. Connected. In addition, the 4-way valve 21 and the 3-way valve 22 are communicatively connected through the connection passage 15.

Referring to FIG. 2A, at the time of water purification, the four-way valve 21 connects the inflow passage 10 and the first filter passage 11 and the second filter passage 12 and the connection passage 15. . In addition, the three-way valve 22 connects the connection passage 15 and the water discharge passage 13, and the backflushing passage 14 blocks.

Therefore, the water flowing through the inflow passage 10 is introduced into the filter 30 through the first filter passage 11 and purified, and is discharged through the second filter passage 12 again, and the connection passage 15 After passing through the water outlet passage 13 to the carbon filter 40 is treated and discharged through the purified water passage 16.

That is, the movement path of the purified water is " inlet passage 10-> four-way valve 21-> first filter passage 11-> filter 30-> second filter passage 12-> The four-way valve 21 is connected to the flow passage 15-> the three-way valve 22-> the water discharge passage 13-> the carbon filter 40-> the purified water passage 16.

Referring to FIG. 2B, during backflushing, the 4-way valve 21 connects the inflow channel 10 and the second filter channel 12 and the first filter channel 11 and the connection channel 15. Let's do it. In addition, the three-way valve 22 connects the connection passage 15 and the backflushing passage 14, and the water outlet passage 14 blocks.

Accordingly, the water flowing through the inflow passage 10 is backwashed through the second filter passage 12 through the second filter passage 12, and discharged through the first filter passage 12 again, and passes through the connection passage 15. Discharged through the flushing flow passage 14.

That is, the movement path of the water in the back-flushing state is " inlet passage 10-> four-way valve 21-> second filter passage 12-> filter 30-> first filter passage 11- > Four-way valve 21 connecting passage 15-> three-way valve 22-> backflushing passage 14 ".

  3A and 3B, the water purification state and the backflushing state of the water filter are described in detail in the apparatus for backwashing the water filter according to another embodiment of the present invention.

In the embodiment of FIGS. 3A and 3B using a three-way valve 22 and two two-way valves 23 and 23 ′, the three-way valve 22 has an inflow passage 10 through which water to be purified is introduced; The first filter passage 11 and the second filter passage 12 connected to the filter 30 are connected, and the water outlet passage 13 through which the purified water is discharged is connected to the first two-way valve 23. The second two-way valve 23 ′ is installed on the backflushing flow passage 14 connected to the filter 30 to discharge the backwash water. The first two-way valve 23 and the three-way valve 22 are communicatively connected through the connection passage 15.

Referring to FIG. 3A, at the time of purification, the three-way valve 22 connects the inflow passage 10 and the first filter passage 11 and the second filter passage 12 and the connection passage 15. . In addition, the first two-way valve 23 connects the connection passage 15 and the water discharge passage 13, and the second two-way valve 23 ′ blocks the backflushing passage 14.

Therefore, the water flowing through the inflow passage 10 is introduced into the filter 30 through the first filter passage 11 and purified, and again discharged through the second filter passage 12, and the connection passage 15 Gina is introduced into the carbon filter 40 through the water discharge passage 13 and treated, and then discharged through the purified water passage 16.

That is, the movement path of the purified water is " inlet passage 10-> three-way valve 22-> first filter passage 11-> filter 30-> second filter passage 12-> The three-way valve 22 is connected to the flow passage 15-> the first two-way valve 23-> the water outlet passage 13-> the carbon filter 40-> the purified water passage 16.

Referring to FIG. 3B, in backflushing, the three-way valve 22 connects the inflow passage 10 and the second filter passage 12 and blocks the first filter passage 11 and the connection passage 15. . In addition, the first two-way valve 23 blocks the water discharge passage 13, and the second two-way valve 23 ′ opens the backflushing passage 14.

Accordingly, the water flowing through the inflow passage 10 flows into the filter 30 through the second filter passage 12 to backwash the filter 30 and is discharged through the backflushing passage 14.

In other words, the movement path of the water in the backflushing state is " inflow passage 10-> three-way valve 22-> second filter passage 12-> filter 30-> backflushing passage 14 " It is composed together.

1A to 3B as described above, it is preferable to further include a controller (not shown) that can automatically control the opening and closing of each valve (20, 21, 22, 23, 23 '). As mentioned above, the apparatus according to the present invention may be built in a general water purifier, and may implement a technique of controlling opening and closing of each valve 20, 21, 22, 23, 23 ′ by a control unit included in the water purifier. Can be. However, a technique for controlling the opening of the valve through a control unit such as a microprocessor is known and a detailed description thereof will be omitted.

As described above, the technical idea of the present invention is a flow path 10, 11, 12 connected to various valves 20, 21, 22, 23, 23 ′ and respective valves 20, 21, 22, 23, 23 ′. , 13, 14, and 15 can effectively backwash the filter 30 built in the water purifier. Therefore, the control unit can be used to automatically open and close the valves 20, 21, 22, 23, and 23 '. The technique of controlling by means of the control and the technique of controlling the opening and closing of the valves 20, 21, 22, 23, 23 'manually are all subsumed in the technical idea of the present invention.

According to the apparatus for backwashing the water purifier filter according to the embodiment of the present invention described above, a combination of flow paths connected to the respective valves is selectively used by using five-way valves, four-way valves, three-way valves, and two-way valves. As a result, the water purifier filter can be washed in a backwash manner without removing the internal elements of the filter.

Claims (5)

delete In the reverse cleaning device of the water purifier filter comprising a main valve and an auxiliary valve connected directly to the main valve via a connecting flow path, and selectively connected to the main valve, The main valve or the auxiliary valve is an inflow oil into which water to be purified flows in, first or second filter oils connected to both ends of the filter, an outflow channel in which the purified water discharged through the filter is discharged, or discharged through the filter A backwashing device for a water purifier filter, which is connected to a backflushing flow path through which the backwash water is discharged and is operated to selectively communicate with the flow paths. The method of claim 2, The main valve is composed of a four-way valve, the auxiliary valve is composed of a three-way valve, The inlet flow path is connected to the main valve, the first filter flow path, and the second filter flow path, and the auxiliary valve is connected to the outlet flow path and the backflushing flow path, and the main valve and the auxiliary valve communicate with each other through the connection flow path. Possibly connected, At the time of water purification, the main valve connects the inflow passage and the first filter passage and connects the second filter passage and the connection passage, and the auxiliary valve connects the connection passage and the outlet passage and blocks the backflushing passage. The main valve connects the inflow passage and the second filter passage and connects the first filter passage and the connection passage during backwashing, and the auxiliary valve connects the connection passage and the backflushing passage and blocks the outlet passage. A backwash device for a water purifier filter, characterized by the above-mentioned. The method of claim 2, The main valve is composed of a three-way valve, the auxiliary valve is composed of a two-way valve having a first two-way valve and a second two-way valve, The inlet passage is connected to the three-way valve and the first filter passage and the second filter passage, and the first two-way valve is connected to the outlet passage and communicatively connected through the three-way valve and the connection passage. The second two-way valve is installed on the backflushing flow passage, At the time of water purification, the three-way valve connects the inflow passage and the first filter passage and connects the second filter passage and the connection passage, and the first two-way valve connects the connection passage and the discharge passage. 2 the two-way valve shuts off the backflushing flow path, and when backwashing, the three-way valve connects the inflow flow path and the second filter flow path, and cuts off the first filter flow path and the connection flow path, and the first two-way valve The water purifying filter is blocked, and the second two-way valve is the backwashing device of the water purifier filter, characterized in that for opening the backflushing flow path. The method according to any one of claims 2 to 4, And a control unit capable of automatically controlling the four-way valve, the three-way valve, and the two-way valve automatically.

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