KR20130077383A - Water purifier - Google Patents

Abstract

PURPOSE: A water purifier is provided to extend the lifespan of a filtering unit and supply water of a stable quality by preventing highly concentrated domestic water from flowing into the filtering unit. CONSTITUTION: A water purifier comprises a filtering unit (110) with a membrane filter (114), a main tank (120), a water supplying tank (130), and a wastewater container (140). Purified water through the filtering unit is supplied into the main tank. The water supplying tank is in connection with the membrane filter in order to supply water to be purified into the filtering unit and receive domestic water through the membrane filter. The water supplying tank comprises a water level detecting unit (132) which detects the level of water which is contained in the water supplying tank. When the water is reached to the predetermined level of the water supplying tank, the water flows from the water supplying tank into the wastewater container.

Description

Water Purifier {WATER PURIFIER}

 The present invention relates to a water purifier.

Recently, as environmental pollution, especially water pollution, becomes a social problem, the use of water purifiers to remove impurities by filtering water physically or chemically is increasing.

Of these water purifiers, the reverse osmosis type water purifier performs pressure purification by using an artificial action of applying pressure to the concentrated concentration so that water, which is a solvent in a high concentration solution, passes through the osmotic membrane and moves toward the low concentration.

Such a reverse osmosis type water purifier includes, for example, a filter portion composed of a sediment filter, a pre carbon filter, a membrane filter, and a post carbon filter, and water purified through the filter unit is accommodated in the main tank.

Thereafter, when the user operates the extraction cock, the purified water contained in the main tank is extracted and the user can use the purified water.

However, the conventional reverse osmosis water purifier has a structure that drains the living water not filtered in the membrane filter as it is, there is a problem that the waste of water is severe.

In addition, since the reverse osmosis type water purifier is directly connected to the tap water, there is a problem that a separate plumbing work for connecting to the tap water in order to use the office or factory.

In particular, when a separate pipe cannot be installed due to office aesthetics, or when the faucet is installed far, there is a problem in that a water purifier of a type directly connected to the faucet cannot be used.

The present invention has been made to solve at least some of the above problems, and an object of the present invention is to provide a water purifier with less waste of living water by filtration again.

In addition, an object of the present invention is to provide a water purifier that can improve the life of the filter portion by not supplying the concentrated living water to the filter portion due to the continuous filtration.

In addition, an object of the present invention is to provide a water purifier capable of supplying purified water of a stable quality even if the reuse of living water.

The water purifier according to an embodiment of the present invention purifies the water supplied to generate purified water, and includes a filter unit having a membrane filter for purifying water supplied through reverse osmosis, and a main water supplied with the purified water passing through the filter unit. A water supply tank and a water supply tank which supply a water to be purified to the filter unit and are connected to the membrane filter to re-introduce the living water discharged from the membrane filter, and a water level sensing unit that senses the level of water contained therein It is connected to the water level detected by the water level detection unit includes a waste water container to which the water received in the water supply tank when the predetermined level reaches.

The waste water tank and the waste water pipe connecting the water supply tank may be connected to a supply pipe for supplying water to be purified from the water supply tank to the filter unit, and the waste water pipe and the supply pipe may be connected to a rear end of a pump installed in the supply pipe.

A valve member may be installed at the connection portion between the wastewater pipe and the supply pipe.

The water purifier may further include a control unit for controlling the pump and the valve member in accordance with a signal from the water level detection unit to allow the water contained in the water supply tank to flow into the waste water container.

The waste water pipe may be provided with a flow sensor for detecting the flow of water flowing into the waste water tank from the water supply tank.

The supply pipe may be connected to the drain cock for discharging the water contained in the water supply tank.

The amount of water to be drained from the water supply tank to the waste water tank may be 20% to 50% of the full water level.

The waste water pipe connecting the waste water tank and the water supply tank is connected to a supply pipe for supplying water to be purified from the water supply tank to the filter unit through a valve member, and the waste water tank is disposed under the water supply tank and is disposed by the valve member. When the wastewater pipe and the supply pipe are connected, water received in the water supply tank may be introduced into the wastewater container by a water head difference.

According to an embodiment of the present invention, when the water level of the water contained in the water supply tank reaches a predetermined level, the water contained in the water supply tank is drained into the waste water tank to prevent the high concentration of living water from flowing into the filter unit. . Accordingly, according to one embodiment of the present invention, there is an effect that can improve the life of the filter portion.

In addition, according to an embodiment of the present invention, it is possible to prevent the highly concentrated living water is introduced back into the water supply tank, it is possible to supply a purified water of a stable quality.

1 is a schematic configuration diagram showing a water purifier according to an embodiment of the present invention.
2 is an operation explanatory diagram for explaining the operation of the water purifier according to an embodiment of the present invention.
3 is a schematic configuration diagram showing a water purifier according to another embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments which fall within the scope of the inventive concept may be easily suggested, but are also included within the scope of the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram showing a water purifier according to an embodiment of the present invention, Figure 2 is an operation diagram for explaining the operation of the water purifier according to an embodiment of the present invention.

1 and 2, the water purifier 100 according to an embodiment of the present invention is an example, the filter unit 110, the main tank 120, the water supply tank 130, the waste water tank 140 and the display It may be configured to include a portion 150.

The filter unit 110 may purify the water supplied to generate purified water, and may include a membrane filter 114 for purifying the water supplied through reverse osmosis.

On the other hand, the filter unit 110 receives the water contained in the water supply tank 130 is filtered and purified, and supplies the generated purified water to the main tank 120.

The filter unit 110 may be composed of, for example, a composite filter 112, a membrane filter 114, and a fucarbon filter 116.

The composite filter 112 is supplied with water from the water supply tank 130 to remove dust, debris and various suspended matters through a fine filter of about 5 microns, and by using the adsorption method of activated carbon, carcinogens, synthetic detergents, insecticides, etc. Remove harmful chemicals and chlorine.

In other words, the composite filter 112 is a filter including a sediment filter and a sun carbon filter as one filter.

In addition, the membrane filter 114 serves to remove heavy metals, ionic substances, microorganisms, and the like contained in the water. More specifically, the membrane filter 114 may be provided with a reverse osmosis membrane to filter out heavy metals such as lead and arsenic, as well as sodium and various pathogens.

In addition, the membrane filter 114 may be provided with a drain portion 114a through which the living water containing the above material is discharged.

The fucarbon filter 116 removes unpleasant tastes, odors and pigments contained in water.

In the present embodiment, the case in which the filter unit 110 includes the three filters 112, 114, and 116 is described as an example, but is not limited thereto. That is, except for the membrane filter 114 provided in the filter unit 110, a filter may be added or some of the filters may be omitted as necessary, and the types of filters constituting the filter may be completely different.

In addition, the arrangement order of the three filters described above may also be changed.

The main tank 120 has an internal space in which the purified water passing through the filter unit 110 is accommodated therein. That is, the main tank 120 receives the water filtered by the filter unit 110 through the purified water pipe 121 and stores the water therein. And, although not shown in the figure, the main tank 120 may be provided with a plurality of sensors for measuring the internal water level.

The main tank 120 may include a hot water tank and / or a cold water tank according to the use of the water purifier.

In addition, the extraction tank (not shown) may be connected to the main tank 120.

The water supply tank 130 supplies water to be purified to the filter unit 110 and is connected to the membrane filter 114 to re-introduce the living water discharged from the membrane filter 114, and detects the level of water contained therein. The water level detecting unit 132 may be provided.

Meanwhile, the water supply tank 130 may be connected to the filter unit 110 by a supply pipe 134 for supplying water to be purified to the filter unit 110. That is, the water supply tank 130 and the composite filter 112 may be connected by the supply pipe 134. The water supply tank 130 is configured to supply water to the filter unit 110 in the office space, such as no water tap by the user, may be configured to manually fill the water by the user. In this case, the user may supply water to the water supply tank 130 by using the waste water tank 140.

In addition, the pump (P) may be installed in the supply pipe 134 so that the water to be purified from the water supply tank 130 flows into the composite filter 112. That is, the water stored in the water supply tank 130 by the pump P may be supplied to the composite filter 112 by flowing to the supply pipe 134. However, if the pump (P) can supply water to the filter unit 110 or supply the living water to the water supply tank 130, the installation position is not limited, for example, the configuration is installed in the living water pipe 136 It is also possible.

In addition, the water supply tank 130 may be connected to the drain portion 114a of the membrane filter 114 by the living water pipe 136. That is, the living water generated from the membrane filter 114 may be introduced into the water supply tank 130 through the living water pipe 136.

Meanwhile, the water level detection unit 132 may include a first sensor 132a installed at the upper end of the water supply tank 130 and a second sensor 132b installed at the center of the water supply tank 130.

The first sensor 132a serves to detect that the water filled in the water supply tank 130 is full water level, and the second sensor 132b serves to detect the water level for draining the water supply tank 130. . In addition, in addition to the first and second sensors 132a and 132b, an additional sensor may be installed. When the user supplies water to the water supply tank 130 through a container of a predetermined volume, the first sensor 132a may be used. It is also possible to configure it is not installed.

Therefore, the installation position of the second sensor 132b may be changed to correspond to the water level for draining the water supply tank 130.

On the other hand, as an example, when the storage amount at the full water level of the water supply tank 130 is 10L, the second sensor 132b may be installed to detect the water level at 5L.

However, the predetermined water level for draining the water supply tank 130 may be changed, and may be a water level when 20% to 50% of the total storage amount of the water supply tank 130.

Waste water tank 140 is connected to the water supply tank 130, the water received in the water supply tank 130 is introduced into the waste water tank 140 when the water level detected from the water level detection unit 132 reaches a predetermined level. . In addition, the waste water tank 140 may be used to supply water to the water supply tank 130 after emptying the water filled in the waste water tank 140. To this end, the waste water container 140 may be configured to be detachable from the waste water pipe 142. In addition, the waste water container 140 preferably has a volume capable of accommodating all the living water discharged from the water supply tank 130. For example, when the volume of the waste water tank 140 is set to 1/2 of the volume of the water supply tank 130, all of water below the drainage level of the water supply tank 130 may be accommodated, and the waste water tank 140 By supplying water to the water supply tank 130 twice, the water supply tank 130 can be filled.

On the other hand, the waste water tank 140 is connected via the water supply tank 130 and the waste water pipe 142, the waste water pipe 142 is connected to the supply pipe 134.

That is, the pipe outflow from the water supply tank 130 is introduced into the waste water pipe 142 through the supply pipe 134 and finally introduced into the waste water container 140.

Meanwhile, the wastewater pipe 142 and the supply pipe 134 may be connected at the rear end of the pump P installed in the supply pipe. That is, when water of the water level established in the water supply tank 130 is accommodated, the waste water pipe 142 and the supply pipe so that the water is drained from the water supply tank 130 by the pump P and flows into the waste water tank 140. 134 is connected.

In addition, a valve member 144 may be installed at the connection portion between the wastewater pipe 142 and the supply pipe 134. The valve member 144 may be configured as a three-way valve, the valve member 144 serves to change the flow path of the water flowing out of the water supply tank 130.

That is, when the water flowing out of the water supply tank 130 is supplied to the composite filter 112 of the filter unit 110, the valve member 144 closes the connection between the wastewater pipe 142 and the supply pipe 134 to the water. This composite filter 112 is provided.

Accordingly, water flowing out of the water supply tank 130 may not flow into the waste water pipe 142.

In addition, when the water flowing out of the water supply tank 130 is introduced into the waste water container 140, the valve member 144 allows the waste water pipe 142 and the supply pipe 134 to communicate with each other, and the water is transferred to the composite filter 112. Do not supply.

In addition, the wastewater pipe 142 may be provided with a flow sensor 146 for detecting whether the water flows through the wastewater pipe 142.

In addition, the flow sensor 146 may be connected to the control unit (C). That is, the flow sensor 146 may transmit different signals to the controller C when water flows through the wastewater pipe 142 and when water does not flow.

Accordingly, the controller C may determine whether the drainage of the water supply tank 130 is completed according to the signal from the flow sensor 146.

Meanwhile, the valve member 144, the pump P, and the water level sensing unit 132 may be connected to the controller C. Detailed description thereof will be given in the operation description to be described later.

In addition, the display unit 150 is connected to the control unit C, and the display unit 150 is in a state of replenishing raw water to the first lamp 152 and the water supply tank 130 indicating that the automatic drainage operation is in progress. A second lamp 154 for displaying may be provided.

That is, when the water contained in the water supply tank 130 is drained to the waste water tank 140, the first lamp 152 is turned on, and after the drainage from the water supply tank 130 is completed, the first lamp 152 is turned off. At the same time, the second lamp 154 may be turned on.

Accordingly, the user can recognize that the raw water must be replenished in the water supply tank 130.

On the other hand, the supply pipe 134 connected to the water supply tank 130 may be provided with a drain valve 160 so that the user can manually drain the water contained in the water supply tank 130. That is, the water purifier 100 according to the embodiment of the present invention may be provided with a drain valve 160 to drain the water supply tank 130 manually or automatically.

Therefore, the user may fill the raw water after filling the raw water in the water supply tank 130 after draining the water contained in the water supply tank 130 manually after a certain time of use.

As described above, when the water contained in the water supply tank 130 reaches a predetermined amount, by draining all the water contained in the water supply tank 130 to the waste water container 140, the life of the filter unit can be improved.

That is, when the water contained in the water supply tank 130 reaches a predetermined amount, water of the highly concentrated living water contained in the water supply tank 130 is prevented while preventing the inflow of further fresh water from the membrane filter 114. By draining, clogging of the filter by highly concentrated living water can be prevented.

And, by supplying the raw water to the water supply tank 130, it may be possible to supply a stable quality of purified water.

Hereinafter, with reference to Figure 2 will be described the operation of the water purifier according to an embodiment of the present invention.

2 is an operation explanatory diagram for explaining the operation of the water purifier according to an embodiment of the present invention.

2, first, the user fills the raw water to the full water level in the water supply tank 130. Then, the water stored in the water supply tank 130 is used to generate the purified water.

During this operation, the living water flowing out of the membrane filter 114 flows into the water supply tank 130.

On the other hand, when the water purifier 100 is used for a predetermined time, the water level of the water contained in the water supply tank 130 is gradually lowered. After that, the water level of the water tank 130 is lowered to the water level detected by the second sensor 132b of the water level detection unit 132.

When the water level of the water accommodated in the water supply tank 130 is lowered to a portion where the second sensor 132b is installed, the second sensor 132b transmits a signal to the controller C.

At this time, the second sensor 132b may detect this when the water accommodated in the water supply tank 130 has a water level of 20% to 50% of the full water level. As an example, when the total capacity of the water supply tank 130 is 10L, the second sensor 132b may detect the water level when 5L of water is received.

After that, when the signal from the second sensor 132b is transmitted, the controller C operates the pump P and simultaneously controls the valve member 144 so that the supply pipe 134 and the waste water pipe 142 communicate with each other. . In addition, the controller C lights the first lamp 152 of the display unit 150 to indicate that the automatic drainage operation is being performed.

Accordingly, the water accommodated in the water supply tank 130 is introduced into the waste water container 150 through the waste water pipe 142, as shown in FIG. At this time, it may be detected whether the water flows to the waste water container 150 through the waste water pipe 142 by the flow sensor 146.

Then, when the flow of water through the waste water pipe 142 is not detected by the flow sensor 146, the flow sensor 146 sends a signal to the control unit (C).

In response to this signal, the control unit C stops driving the pump P, and the valve member 144 closes the connection portion between the wastewater pipe 142 and the supply pipe 134.

In addition, the controller C turns off the first lamp 152 of the display unit 150 and lights the second lamp 154.

Accordingly, the user can recognize that the raw water must be supplied to the water supply tank 130.

As such, by supplying the raw water to the water supply tank 130 after draining all the diluted water with high concentration of the living water contained in the water supply tank 130 to the waste water tank 140, it is possible to supply a purified water of stable quality.

In addition, the shortening of the life of the filter part by the highly concentrated living water can be suppressed.

Hereinafter, a water purifier according to another embodiment of the present invention will be described with reference to FIG. 3. However, a detailed description of the same components as those described above will be omitted and replaced with the above description.

3 is a schematic configuration diagram showing a water purifier according to another embodiment of the present invention.

Referring to FIG. 3, the water purifier 200 according to another embodiment of the present invention may be, for example, a filter unit 210, a main tank 220, a water tank 230, a waste water tank 240, and a display unit ( 250).

On the other hand, except for the components described below, the filter unit 210, the main tank 220, the water supply tank 230, the waste water tank 240 and provided in the water purifier 200 according to another embodiment of the present invention and The display unit 250 includes a filter unit 110, a main tank 120, a water supply tank 130, a waste water tank 140, and a display unit provided in the water purifier 100 according to an embodiment of the present invention. Since it is the same configuration as 150), detailed description thereof will be omitted.

The wastewater pipe 242 connecting the wastewater container 240 and the water supply tank 230 may supply a valve member 244 to a supply pipe 234 for supplying water to be purified from the water supply tank 230 to the filter unit 210. Leads to.

That is, the wastewater pipe 242 and the supply pipe 234 are connected through the valve member 244, and the water flowing out of the water supply tank 230 by the valve member 244 is filtered by the filter 210 or the waste water container. Optional flow to 240.

Then, the waste water container 240 is disposed in the lower portion of the water supply tank 230, the waste water pipe 242 and the supply pipe 234 connected by the valve member 244 is received in the water supply tank 230 by the water head difference Water may enter the waste water container 240.

That is, even though the wastewater pipe 242 is connected to the supply pipe 234 at the front of the pump P, the wastewater container 240 is disposed below the water supply tank 230, so that the water drops due to the water head difference. 240) can be introduced.

And, except for the above-described configuration provided in the water purifier 200 according to another embodiment of the present invention is the same as the configuration provided in the water purifier 100 according to an embodiment of the present invention described above.

Accordingly, the effects implemented by the water purifier 100 according to the embodiment of the present invention may also be implemented by the water purifier 200 according to another embodiment of the present invention.

While the present invention has been particularly shown and described with reference to particular embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims I would like to make it clear.

100, 200: water purifier
110, 210: filter part
120, 220: main tank
130, 230: water supply tank
140, 240: waste water bottle
150, 250: display unit

Claims (8)

A filter unit having a membrane filter for purifying the water supplied to generate purified water and purifying the water supplied through reverse osmosis;
A main tank supplied with purified water passing through the filter unit;
A water supply tank which supplies water to be purified to the filter unit and is connected to the membrane filter to re-introduce the living water discharged from the membrane filter, and has a water level sensing unit sensing a level of water contained therein; And
A waste water bottle connected to the water supply tank, into which water received in the water supply tank flows when the water level detected by the water level detection unit reaches a preset level;
Water purifier comprising a. The method of claim 1,
The waste water pipe and the waste water pipe connecting the water supply tank are connected to a supply pipe for supplying water to be purified from the water supply tank to the filter unit,
The waste water pipe and the supply pipe is a water purifier connected to the rear end of the pump installed in the supply pipe. The method of claim 2,
Water purifier is provided with a valve member is connected to the waste water pipe and the supply pipe. The method of claim 3,
And a control unit for controlling the pump and the valve member according to a signal from the water level sensing unit so that water contained in the water supply tank flows into the waste water container. The method of claim 2,
The waste water pipe is provided with a flow sensor for sensing the flow of water flowing into the waste water tank from the water supply tank. The method of claim 2,
The water supply pipe is connected to the drain pipe for discharging the water contained in the water supply tank. The method of claim 1,
The amount of water to be drained from the water supply tank to the waste water tank is 20% to 50% of the full water level. The method of claim 1,
The waste water pipe connecting the waste water tank and the water supply tank is connected to the supply pipe for supplying water to be purified from the water supply tank to the filter unit through a valve member.
The waste water container is disposed below the water supply tank so that the water received in the water supply tank is introduced into the waste water tank by a water head when the waste water pipe and the supply pipe are connected by the valve member.

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