KR102622548B1 - Water treatment apparatus - Google Patents

Abstract

A water treatment device is started.
A water treatment device according to an embodiment of the present invention includes a filtration unit that filters water supplied from a water supply source and includes a reverse osmosis filter; a discharge unit discharging the water filtered in the filtration unit to the outside; A flushing unit connected to the reverse osmosis filter; and a control unit that causes water filtered in the reverse osmosis filter to flow to the flushing unit and flush the reverse osmosis filter. may include.

Description

Water treatment equipment {WATER TREATMENT APPARATUS}

The present invention relates to a water treatment device that processes water, such as by filtering it.

A water treatment device is a device that processes water and supplies it to users.

Water treatment devices filter water and supply it to users, electrolyze water to make alkaline water and supply it to users, or dissolve carbon dioxide in water to make carbonated water and supply it to users.

When water is filtered and supplied to users, the water treatment device includes a water purification filter to filter the water.

Among these water purification filters, there is a reverse osmosis filter equipped with a reverse osmosis membrane. Water flows into the reverse osmosis filter at a predetermined pressure, and the water that passes through the reverse osmosis membrane is filtered. And, water that does not pass through the reverse osmosis membrane is drained from the reverse osmosis filter as domestic water.

Therefore, in a reverse osmosis filter, water with a high TDS (Total Dissolved Solids) concentration, i.e., unfiltered water, exists on one side centered on the reverse osmosis membrane, and on the other side, water with a low TDS concentration, i.e., filtered water exists. I do it.

For example, a reverse osmosis filter is divided into a non-filtration side and a filtration side by a reverse osmosis membrane.

Meanwhile, while water is not filtered through the reverse osmosis filter, water on the filtration side of the reverse osmosis filter moves to the non-filtration side due to osmotic pressure. Accordingly, the TDS concentration of water on the filtration side of the reverse osmosis filter increases and becomes similar to the TDS concentration of water on the non-filtration side.

In this state, when filtration of water is resumed through the reverse osmosis filter, water with a high TDS concentration present on the filtration side of the reverse osmosis filter is initially supplied to the user, and this phenomenon is called a creep phenomenon.

The present invention has been made in recognition of at least one of the above-mentioned needs or problems arising in the prior art.

One aspect of the purpose of the present invention is to prevent water with a high TDS concentration from being discharged at the beginning of filtration and supplied to users when water is filtered using a reverse osmosis filter.

Another aspect of the object of the present invention is to enable flushing of a reverse osmosis filter with water filtered in the reverse osmosis filter.

A water treatment device related to one embodiment for realizing at least one of the above tasks may include the following features.

A water treatment device according to an embodiment of the present invention includes a filtration unit that filters water supplied from a water supply source and includes a reverse osmosis filter; A discharge unit that discharges the water filtered in the filtration unit to the outside; A flushing unit connected to a reverse osmosis filter; and a control unit that causes the water filtered in the reverse osmosis filter to flow to the flushing unit and flush the reverse osmosis filter. may include.

In this case, the control unit may be electrically connected to an inlet valve that supplies water to the filtration unit and an outlet valve that allows water filtered in the filtration unit to be discharged through the discharge unit.

Additionally, the control unit may open and close the inlet valve and the outlet valve at a predetermined time interval to allow water filtered in the reverse osmosis filter to flow into the flushing unit.

In addition, the control unit may close the water outlet valve after the water filtered in the filtration unit is discharged through the discharge unit and close the water intake valve after a first predetermined time.

Additionally, the control unit may flush the reverse osmosis filter for a second predetermined time after closing the inlet valve.

Additionally, the reverse osmosis filter may be divided into a non-filtration side and a filtration side by a reverse osmosis membrane.

In addition, on the non-filtration side, a first connection line that allows water to flow into the reverse osmosis filter and a domestic water line through which unfiltered household water that does not pass through the reverse osmosis membrane are drained are connected, and on the filtration side, the filtered water that passes through the reverse osmosis membrane is discharged. A second connection line may be connected.

Additionally, the flushing unit may include flushing lines respectively connected to the first connection line and the second connection line.

Additionally, the flushing line may be provided with a flushing check valve or flushing valve that allows water to flow only in the direction of the first connection line.

In addition, the domestic water line may be equipped with a domestic water valve for flushing.

Additionally, the flushing unit may include a flushing line connected to the domestic water line and the second connection line, respectively.

Additionally, the flushing line may be provided with a flushing check valve or flushing valve that allows water to flow only in the direction of the domestic water line.

Additionally, a flushing drain line equipped with a flushing drain valve may be connected to the first connection line.

In addition, the flushing unit is connected to the flushing line and may further include a flushing tank through which filtered water is stored and discharged.

Additionally, an air layer may always exist in the flushing tank.

Additionally, the flushing tank may be equipped with a tank check valve to prevent air from being discharged to the outside when filtered water is stored.

As described above, according to the embodiment of the present invention, the inlet valve that supplies water to the filtration unit including the reverse osmosis filter and the outlet valve that allows water filtered from the filtration unit to be discharged can be opened and closed with a predetermined time difference. .

Additionally, according to an embodiment of the present invention, the reverse osmosis filter can be flushed with water filtered in the reverse osmosis filter.

Additionally, according to an embodiment of the present invention, when water is filtered using a reverse osmosis filter, water with a high TDS concentration is discharged at the beginning of filtration so that it is not supplied to the user.

1 is a diagram showing a first embodiment of a water treatment device according to the present invention.
2 to 4 are diagrams showing the operation of the first embodiment of the water treatment device according to the present invention.
Figure 5 is a diagram showing a second embodiment of the water treatment device according to the present invention.
Figures 6 to 8 are diagrams showing the operation of the second embodiment of the water treatment device according to the present invention.
Figure 9 is a diagram showing a third embodiment of a water treatment device according to the present invention.
10 to 12 are diagrams showing the operation of the third embodiment of the water treatment device according to the present invention.

In order to facilitate understanding of the features of the present invention as described above, the water treatment device related to the embodiment of the present invention will be described in more detail below.

The embodiments described below will be explained based on the embodiments most suitable for understanding the technical features of the present invention, and the technical features of the present invention are not limited by the described embodiments. This is to illustrate that the present invention can be implemented as in the embodiments. Accordingly, the present invention can be implemented in various modifications within the technical scope of the present invention through the embodiments described below, and these modified embodiments will be considered to fall within the technical scope of the present invention. In addition, in order to facilitate understanding of the embodiments described below, in the symbols shown in the accompanying drawings, related components among components that perform the same function in each embodiment are indicated by numbers on the same or extended lines.

of water treatment equipment First embodiment

Hereinafter, a first embodiment of a water treatment device according to the present invention will be described with reference to FIGS. 1 to 4.

Figure 1 is a diagram showing the first embodiment of the water treatment device according to the present invention, and Figures 2 to 4 are diagrams showing the operation of the first embodiment of the water treatment device according to the present invention.

The first embodiment of the water treatment device 100 according to the present invention may include a filtration unit 200, a discharge unit 300, a flushing unit 400, and a control unit 500, as shown in FIG. 1. .

The filtering unit 200 can filter water supplied from a water supply source. To this end, the filtration unit 200 may include a reverse osmosis filter 210.

As shown in FIG. 1, the reverse osmosis filter 210 may be divided into a non-filtration side 211 and a filtration side 212 by a reverse osmosis membrane (M). For example, by providing the reverse osmosis membrane (M) inside the reverse osmosis filter 210 in a rolled-up state, the reverse osmosis filter 210 can be divided into a non-filtration side 211 and a filtration side 212.

However, the configuration in which the reverse osmosis filter 210 is divided into a non-filtration side 211 and a filtration side 212 by the reverse osmosis membrane M is not particularly limited, and any known configuration is possible.

A first connection line (LC1) and a domestic water line (LLW) may be connected to the non-filtration side 211 of the reverse osmosis filter 210.

As shown in Figures 2 to 4, water may flow into the reverse osmosis filter 210, that is, the non-reverse side 211 of the reverse osmosis filter 210, through the first connection line LC1.

In addition, through the domestic water line (LLW), as shown in Figures 2 and 3, unfiltered domestic water that does not pass through the reverse osmosis membrane (M) of the reverse osmosis filter 210 may be drained to the outside.

Meanwhile, as shown in Figure 4, the flushing water that flushes the reverse osmosis filter 210, that is, flushes the non-filtration side 211 of the reverse osmosis filter 210, is drained to the outside through the domestic water line (LLW). It can be.

An inlet valve (V1) may be provided in the first connection line (LC1). The inlet valve (VI) may be electrically connected to the control unit 500. And, when the inlet valve VI is opened by the control unit 500, water may flow into the reverse osmosis filter 210 through the first connection line LC1, as shown in FIGS. 2 and 3.

The domestic water line (LLW) may be equipped with a domestic water valve (VFL) for flushing. As shown in Figures 2 and 3, the domestic water that has not been filtered by the reverse osmosis filter 210 is drained to the outside by the flushing/combined water valve (VFL), or the reverse osmosis filter 210 as shown in Figure 4. The flushing water that flushes can be drained to the outside.

A second connection line LC2 may be connected to the filtration side 212 of the reverse osmosis filter 210. As shown in FIGS. 2 and 3, water filtered through the reverse osmosis membrane (M) of the reverse osmosis filter 210 may be discharged through the second connection line (LC2).

In order to filter water supplied from a water supply source, the filtration unit 200 may further include a pre-treatment filter 220 and a post-treatment filter 230 as shown in FIG. 1 in addition to the reverse osmosis filter 210 described above. .

However, the water purification filter included in addition to the reverse osmosis filter 210 for filtration of water supplied from the water supply source to the filtration unit 200 is not particularly limited, and any known water purification filter may be included.

As shown in FIG. 1, the pretreatment filter 220 may be connected to a water supply source (not shown), such as a raw water supply source such as a tap, by a water supply line (LSW). Additionally, the pre-treatment filter 220 may be connected to the reverse osmosis filter 210 described above through the first connection line LC1.

Therefore, when the water intake valve (VI) of the first connection line (LC1) is opened by the control unit 500, water from the water supply source, such as raw water, first flows through the water intake line (LSW) as shown in Figures 2 and 3. It may flow into the pre-treatment filter 220 and be filtered.

In addition, water filtered by the pre-treatment filter 220, that is, purified water, may flow into the reverse osmosis filter 210 through the first connection line LC1.

The post-treatment filter 230 may be connected to the reverse osmosis filter 210 through a second connection line (LC2). Additionally, the post-treatment filter 230 may be connected to the discharge unit 300 through a water outlet line (LPD). In addition, the water outlet line (LPD) may be provided with a water outlet valve (VD) electrically connected to the control unit 500.

Accordingly, when the water discharge valve VD is opened by the control unit 500, the water filtered in the reverse osmosis filter 210, that is, purified water, is passed through the second connection line LC2 to the post-treatment filter as shown in FIG. 2. It can be introduced into (230) and filtered.

In addition, the water filtered in the post-treatment filter 230, that is, purified water, flows through the water outlet line (LPD) and can be discharged to the outside through the discharge unit 300 and supplied to the user.

As shown in FIG. 2, the discharge unit 300 can discharge water filtered in the filter unit 200, that is, purified water, to the outside.

As described above and shown in FIG. 1, the discharge unit 300 may be connected to the filtration unit 200, for example, the post-treatment filter 230 of the filtration unit 200, through a water outlet line (LPD).

And, when the drain valve (VD) of the water outlet line (LPD) is opened by the control unit 500, the water filtered in the filter unit 200, that is, purified water, flows into the discharge unit 300, as shown above and in FIG. 2. It can be discharged to the outside and supplied to users.

The discharge unit 300 is connected to the water discharge line (LPD) and may include, for example, a cock or faucet (not shown) that discharges the water filtered in the filtration unit 200, that is, purified water, to the outside. . However, the configuration of the discharge unit 300 is not particularly limited, and any known configuration is possible as long as it can discharge the water filtered in the filtration unit 200 to the outside.

The flushing unit 400 may be connected to the reverse osmosis filter 210. As shown in FIG. 1, the flushing unit 400 is connected to the first connection line LC1 connected to the non-filtration side 211 of the reverse osmosis filter 210 and the filtration side 212 of the reverse osmosis filter 210. It may include a flushing line 410 respectively connected to the second connection line LC2.

The flushing line 410 may be provided with a flushing check valve (CVF) that allows water to flow only in the direction of the first connection line LC1. As a result, as shown in Figures 2 and 3, when the water filtered in the pre-treatment filter 220 flows into the reverse osmosis filter 210 through the first connection line LC1, it is filtered in the pre-treatment filter 220. The water may not flow to the flushing line 410 through the first connection line LC1.

And, as shown in Figures 3 and 4, only when flushing the reverse osmosis filter 210, the water filtered in the reverse osmosis filter 210, that is, purified water, flows through the second connection line LC2 to the flushing line ( 410) and can flow.

In this way, the water flowing through the flushing line 410 flows into the reverse osmosis filter 210 through the first connection line LC1 as shown in Figure 4, flushes the reverse osmosis filter 210, and then becomes household water. It can be drained to the outside through the line (LLW).

Meanwhile, the flushing line 410 may be provided with a flushing valve (not shown) other than the flushing check valve (CVF) described above. Additionally, the flushing valve may be electrically connected to the control unit 500.

In this configuration, as shown in Figures 2 and 3, when the water filtered in the pre-treatment filter 220 flows into the reverse osmosis filter 210 through the first connection line LC1, the flushing line 410 The flushing valve can be closed by the control unit 500.

And, as shown in Figure 4, only when flushing the reverse osmosis filter 210, the flushing valve of the flushing line 410 can be opened by the control unit 500.

The control unit 500 may cause the water filtered in the reverse osmosis filter 210 to flow to the flushing unit 400 and flush the reverse osmosis filter 210, that is, the non-filtration side 211 of the reverse osmosis filter 210. there is.

As a result, water with a low TDS concentration, for example, similar to the TDS concentration on the filtration side 211, also exists on the non-filtration side 211 of the reverse osmosis filter 210.

And, even while water is not filtered in the filtration unit 200 including the reverse osmosis filter 210, water on the filtration side 212 of the reverse osmosis filter 210 is transferred to the non-filtration side 211 due to osmotic pressure. may not move to .

Accordingly, the TDS concentration of water present on the filtration side 212 of the reverse osmosis filter 210 may not increase.

Therefore, when filtration of water is resumed in the filtration unit 200 including the reverse osmosis filter 210, water with a low TDS concentration can be discharged and supplied to the user even at the initial stage of filtration.

Accordingly, when water is filtered using the reverse osmosis filter 210, water with a high TDS concentration is discharged at the beginning of filtration so that it is not supplied to the user.

The control unit 500 is electrically connected to the above-described inlet valve (VI) for supplying water to the filtering unit 200 and the above-described outlet valve (VD) for discharging the filtered water through the discharge unit 300. can be connected

The control unit 500 opens and closes the inlet valve (VI) and the outlet valve (VD) at a predetermined time interval to allow the water filtered in the reverse osmosis filter 210 to flow into the flushing unit 400, for example, as described above in the flushing unit 400. It can be allowed to flow to the flushing line 410.

To this end, the control unit 500 closes the water discharge valve (VD) after the water filtered in the filtration unit 200, that is, purified water, is discharged through the discharge unit 300, and opens the water intake valve (VI) after a predetermined first set time. can be closed.

When the inlet valve (VI) and outlet valve (VD) are opened by the control unit 500, water from the water supply source, such as raw water, flows into the pre-treatment filter 220 through the inlet line (LSW) as shown in Figure 2. Can be filtered.

Water filtered in the pre-treatment filter 220, that is, purified water, may flow into the reverse osmosis filter 210 through the first connection line LC1.

And, as shown in Figure 2, the water filtered in the reverse osmosis filter 210 flows into the post-treatment filter 230 through the second connection line (LC2), and the water that was not filtered in the reverse osmosis filter 210 That is, domestic water can be drained to the outside through the domestic water line (LLW).

Additionally, water flowing into the post-treatment filter 230 may be filtered in the post-treatment filter 230, flow through the water outlet line (LPD), and be discharged to the outside through the discharge unit 300 to be supplied to the user.

After the water filtered in the filtration unit 200, that is, purified water, is discharged through the discharge unit 300 in a predetermined amount desired by the user, the control unit 500 first opens the water outlet valve VD as shown in FIG. 3. It can be closed.

Accordingly, the water filtered in the reverse osmosis filter 210 and flowing through the second connection line LC2, that is, purified water, cannot flow into the post-treatment filter 230 and flows into the flushing line 410 of the flushing unit 400. may be introduced.

After closing the water outlet valve (VD) and a predetermined first set time, the control unit 500 may close the water intake valve (VI).

As a result, the water filtered by the reverse osmosis filter 210, that is, purified water, flowing into the flushing line 410 of the flushing unit 400 is connected to the flushing line 410 and the first connection line ( It may flow into the reverse osmosis filter 210, that is, the non-filtration side 211 of the reverse osmosis filter 210, through LC1).

The above-mentioned first set time may be, for example, a time during which a sufficient amount of filtered water to flush the reverse osmosis filter 210 can flow into the flushing line 410 of the flushing unit 400.

However, the first set time is not particularly limited, and can be any time required to flush the reverse osmosis filter 210.

As described above, the water flowing into the non-filtration side 211 of the reverse osmosis filter 210 is flushed with the non-filtration side 211 of the reverse osmosis filter 210 and then flushed with flushing water as shown in Figure 4. It can be drained to the outside through the domestic water line (LLW).

Flushing of the reverse osmosis filter 210 may be performed by the control unit 500 for a second predetermined time. For example, the control unit 500 may close the flushing/living water valve (VFL) a predetermined second set time after closing the water intake valve (VI).

The second set time is not particularly limited, and any time is possible as long as it can sufficiently flush the reverse osmosis filter 210.

of water treatment equipment Second embodiment

Hereinafter, a second embodiment of the water treatment device according to the present invention will be described with reference to FIGS. 5 to 8.

Figure 5 is a diagram showing the second embodiment of the water treatment device according to the present invention, and Figures 6 to 8 are diagrams showing the operation of the second embodiment of the water treatment device according to the present invention.

Here, the second embodiment of the water treatment device according to the present invention is the first embodiment of the water treatment device according to the present invention described with reference to FIGS. 1 to 4, and the flushing unit 400 is the flushing tank 420. There is a difference in that it includes more.

Therefore, the following description will focus on the differentiated configurations, and the remaining configurations can be replaced with those described with reference to FIGS. 1 to 4 above.

In the second embodiment of the water treatment device 100 according to the present invention, the flushing unit 400 may further include a flushing tank 420, as shown in FIG. 5.

The flushing tank 420 may be connected to the flushing line 410. As shown in FIG. 7, the flushing tank 420 may store water filtered by the reverse osmosis filter 210, that is, purified water. Additionally, as shown in FIG. 8, the filtered water stored in the flushing tank 420 may be discharged from the flushing tank 420 to flush the reverse osmosis filter 210.

In this configuration, when the inlet valve VI and the outlet valve VD are opened by the control unit 500, water from the water supply source, such as raw water, flows through the inlet line LSW through the pre-treatment filter 220, as shown in FIG. 6. ) can be filtered first.

Water filtered in the pre-treatment filter 220 may flow into the reverse osmosis filter 210 through the first connection line LC1.

And, as shown in Figure 6, the water filtered in the reverse osmosis filter 210 flows into the post-treatment filter 230 through the second connection line (LC2) and is filtered, but is not filtered in the reverse osmosis filter 210. Unused water, that is, domestic water, can be drained to the outside through the domestic water line (LLW).

Additionally, the water filtered in the post-treatment filter 230 may flow through the water outlet line (LPD) and be discharged to the outside through the discharge unit 300 to be supplied to the user.

After the water filtered in the filtration unit 200, that is, purified water, is discharged through the discharge unit 300 in a predetermined amount desired by the user, the control unit 500 first closes the water outlet valve VD as shown in FIG. 7. You can.

Accordingly, the water filtered in the reverse osmosis filter 210 and flowing through the second connection line LC2, that is, purified water, cannot flow into the post-treatment filter 230 and flows into the flushing line 410 of the flushing unit 400. may be introduced.

In addition, the water filtered by the reverse osmosis filter 210 and flowing into the flushing line 410 may flow through the flushing line 410 and be stored in the flushing tank 420.

After closing the water outlet valve (VD) and a predetermined first set time, the control unit 500 may close the water intake valve (VI).

Accordingly, the water filtered by the reverse osmosis filter 210, stored in the flushing tank 420 of the flushing unit 400, flows through the flushing line 410 and the first connection line LC1, as shown in Figure 8. It may flow into the reverse osmosis filter 210, that is, the non-filtration side 211 of the reverse osmosis filter 210.

In this case, the above-described first set time is, for example, a time when a sufficient amount of filtered water to flush the reverse osmosis filter 210 can be introduced into and stored in the flushing tank 420 of the flushing unit 400. You can.

However, the first set time is not particularly limited, and can be any time required to flush the reverse osmosis filter 210.

The water flowing into the non-filtration side 211 of the reverse osmosis filter 210 flushes the non-filtration side 211 of the reverse osmosis filter 210 and then flows into the household water line (LLW) as flushing water as shown in Figure 8. ) can be drained to the outside.

In addition, the control unit 500 may, for example, close the water inlet valve (VI) and then close the flushing/living water valve (VFL) after a predetermined second set time to allow the reverse osmosis filter 210 to be flushed during the second set time. there is.

The second set time is not particularly limited, and any time is possible as long as it can sufficiently flush the reverse osmosis filter 210.

Meanwhile, an air layer A may always exist in the flushing tank 420 of the flushing unit 400, as shown in FIGS. 6 to 8.

For this purpose, the flushing tank 420 may be equipped with a tank check valve (CVT) as shown in FIG. 5. When water filtered by the reverse osmosis filter 210 is stored in the flushing tank 420 as shown in FIG. 7 due to this tank check valve (CVT), the air inside the flushing tank 420 may not be discharged to the outside. .

As shown in Figure 6, when filtered water flows into the flushing tank 420 and is not stored, the flushing tank 420 is empty and an air layer A exists in the flushing tank 420. That is, in this case, the flushing tank 420 is completely filled with air.

In addition, as shown in Figure 7, when filtered water is stored in the flushing tank 420, the air in the flushing tank 420 cannot be discharged to the outside by the tank check valve (CVT) and the flushing tank 420 compressed internally.

As a result, in this case as well, an air layer (A) exists in the flushing tank 420.

The water filtered in the reverse osmosis filter 210 is stored in the flushing tank 420 until the air layer A in the flushing tank 420 can no longer be compressed or until the air layer A is compressed to a predetermined pressure. When this happens, the filtered water stored in the flushing tank 420 can be discharged from the flushing tank 420 by the pressure of the air layer (A).

And, as described above, the filtered water stored in the flushing tank 420 flows into the reverse osmosis filter 210 through the flushing line 410 and the first connection line LC1 to flush the reverse osmosis filter 210. can do.

of water treatment equipment Third embodiment

Hereinafter, a third embodiment of the water treatment device according to the present invention will be described with reference to FIGS. 9 to 12.

Figure 9 is a diagram showing the third embodiment of the water treatment device according to the present invention, and Figures 10 to 12 are diagrams showing the operation of the third embodiment of the water treatment device according to the present invention.

Here, the third embodiment of the water treatment device according to the present invention is the first embodiment of the water treatment device according to the present invention described with reference to FIGS. 1 to 4, and the flushing line 410 of the flushing unit 400. There is a difference in that the connection relationship and the flushing unit 400 further includes a flushing tank 420.

Therefore, the following description will focus on the differentiated configurations, and the remaining configurations can be replaced with those described with reference to FIGS. 1 to 4 above.

In the third embodiment of the water treatment device 100 according to the present invention, the flushing line 410 of the flushing unit 400 is connected to the non-filtration side 211 of the reverse osmosis filter 210 as shown in Figure 9. It may be connected to the domestic water line (LLW) and the second connection line (LC2) connected to the filtration side 212 of the reverse osmosis filter 210, respectively.

Additionally, the flushing line 410 may be provided with a flushing check valve (CVF) or a flushing valve that allows water to flow only in the direction of the domestic water line (LLW).

Additionally, a flushing drain line (LFD) equipped with a flushing drain valve (VFD) may be connected to the first connection line (LC1).

Additionally, the domestic water line (LLW) may be equipped with a domestic water valve (VL).

Additionally, the flushing unit 400 may include a flushing tank 420 connected to the flushing line 410.

Additionally, the flushing tank 420 may be equipped with a tank check valve (CVT) that prevents air from being discharged to the outside when storing filtered water so that the air layer A always exists.

In this configuration, when the inlet valve VI and the outlet valve VD are opened by the control unit 500, water from the water supply source, such as raw water, flows through the inlet line LSW through the pre-treatment filter 220, as shown in FIG. 10. ) can be filtered first.

Water filtered in the pre-treatment filter 220 may flow into the reverse osmosis filter 210 through the first connection line LC1.

And, as shown in Figure 10, the water filtered in the reverse osmosis filter 210 flows into the post-treatment filter 230 through the second connection line LC2 and is filtered, and is not filtered in the reverse osmosis filter 210. Unused water, that is, domestic water, can be drained to the outside through the domestic water line (LLW).

Additionally, the water filtered in the post-treatment filter 230 may flow through the water outlet line (LPD) and be discharged to the outside through the discharge unit 300 to be supplied to the user.

After the water filtered in the filtration unit 200, that is, purified water, is discharged through the discharge unit 300 in a predetermined amount desired by the user, the control unit 500 first closes the water outlet valve VD as shown in FIG. 11. You can.

Accordingly, the water filtered in the reverse osmosis filter 210 and flowing through the second connection line LC2, that is, purified water, cannot flow into the post-treatment filter 230 and flows into the flushing line 410 of the flushing unit 400. may be introduced.

In addition, the water filtered by the reverse osmosis filter 210 and flowing into the flushing line 410 may flow through the flushing line 410 and be stored in the flushing tank 420.

After closing the outlet valve (VD) and a predetermined first set time, the control unit 500 may close the inlet valve (VI) and open the flushing drain valve (VFD) of the flushing drain line (LFD).

Accordingly, the water filtered by the reverse osmosis filter 210, stored in the flushing tank 420 of the flushing unit 400, is reverse discharged through the flushing line 410 and the domestic water line (LLW), as shown in FIG. 12. It may flow into the osmosis filter 210, that is, the non-filtration side 211 of the reverse osmosis filter 210.

In this case, the above-described first set time is, for example, a time when a sufficient amount of filtered water to flush the reverse osmosis filter 210 can be introduced into and stored in the flushing tank 420 of the flushing unit 400. You can.

However, the first set time is not particularly limited, and can be any time required to flush the reverse osmosis filter 210.

The water flowing into the non-filtration side 211 of the reverse osmosis filter 210 flushes the non-filtration side 211 of the reverse osmosis filter 210 and then flows into the first connection line ( It can be drained to the outside through LC1) and flushing drain line (LFD).

Then, the control unit 500, for example, opens the flushing drain valve (VFD) while closing the inlet valve (VI) and then closes the flushing drain valve (VFD) after a predetermined second set time to operate the reverse osmosis filter ( 210) can be flushed.

The second set time is not particularly limited, and any time is possible as long as it can sufficiently flush the reverse osmosis filter 210.

As described above, when using the water treatment device according to the present invention, the inlet valve that supplies water to the filtration unit including the reverse osmosis filter and the outlet valve that discharges the filtered water from the filtration unit can be opened and closed at a predetermined time difference. The reverse osmosis filter can be flushed with water filtered from the reverse osmosis filter, and when water is filtered using a reverse osmosis filter, water with a high TDS concentration can be discharged at the beginning of filtration to prevent it from being supplied to the user.

The water treatment device described above cannot be limited to the configuration of the above-described embodiments, and may be configured by selectively combining all or part of each embodiment so that various modifications can be made.

100: water treatment device 200: filtration unit
210: reverse osmosis filter 211: non-filtration side
212: filtration side 220: pre-treatment filter
230: Post-treatment filter 300: Discharge unit
400: Flushing part 410: Flushing line
420: Flushing tank 500: Control unit
VI: Inlet valve VD: Outlet valve
VFL: Household water valve for flushing VFD: Flushing drain valve
VL: Domestic water valve CVF: Flushing check valve
CVT: Tank check valve LC1: 1st connection line
LC2: Second connection line LSW: Water intake line
LPD: Water outlet line LLW: Domestic water line
LFD: Flushing drain line M: Reverse osmosis membrane
A: air layer

Claims (16)

A filtration unit that filters water supplied from a water supply source and includes a reverse osmosis filter;
a discharge unit discharging the water filtered in the filtration unit to the outside;
A flushing unit connected to the reverse osmosis filter; and
It includes a control unit that causes the water filtered in the reverse osmosis filter to flow to the flushing unit and flush the reverse osmosis filter,
The filtration unit further includes a pre-treatment filter disposed in front of the reverse osmosis filter,
The reverse osmosis filter is divided into a non-filtration side and a filtration side by a reverse osmosis membrane,
One side of the flushing unit is connected to the non-filtration side and the other side is connected to the filtering side,
An inlet valve is provided between the pretreatment filter and the reverse osmosis filter, and an outlet valve is provided between the reverse osmosis filter and the discharge unit,
The control unit,
Each is electrically connected to the inlet valve that supplies water to the filtration unit and the outlet valve that allows water filtered in the filtration unit to be discharged through the discharge unit, The inlet valve and the outlet valve are opened and closed at a predetermined time interval to allow the water filtered in the reverse osmosis filter to flow into the flushing unit, After the water filtered in the filtration unit is discharged through the discharge unit, the water outlet valve is closed, and the water intake valve is closed after a first predetermined time, A water treatment device that flushes the reverse osmosis filter for a second predetermined time after closing the water intake valve. delete delete delete delete delete The method of claim 1, wherein on the non-filtration side, a first connection line that allows water to flow into the reverse osmosis filter and a household water line through which unfiltered household water that fails to pass through the reverse osmosis membrane are drained are connected,
A water treatment device in which a second connection line is connected to the filtration side through which water filtered through the reverse osmosis membrane is discharged. The water treatment device according to claim 7, wherein the flushing unit includes flushing lines respectively connected to the first connection line and the second connection line. The water treatment device according to claim 8, wherein the flushing line is provided with a flushing check valve or flushing valve that allows water to flow only in the direction of the first connection line. The water treatment device according to claim 9, wherein the domestic water line is provided with a domestic water valve for flushing. The water treatment device according to claim 7, wherein the flushing unit includes a flushing line respectively connected to the domestic water line and the second connection line. The water treatment device according to claim 11, wherein the flushing line is provided with a flushing check valve or flushing valve that allows water to flow only in the direction of the domestic water line. The water treatment device according to claim 12, wherein a flushing drain line equipped with a flushing drain valve is connected to the first connection line. The water treatment device according to claim 8 or 11, wherein the flushing unit is connected to the flushing line and further includes a flushing tank through which filtered water is stored and discharged. The water treatment device according to claim 14, wherein an air layer always exists in the flushing tank. The water treatment device according to claim 15, wherein the flushing tank is provided with a tank check valve to prevent air from being discharged to the outside when filtered water is stored.

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