KR20130131964A - Water sterilization system of water treatment apparatus - Google Patents

Abstract

Disclosed is a water sterilization flow path structure of a water treatment apparatus capable of performing a function of circulating and sterilizing water stored in a tank.
The water sterilization flow path structure of the disclosed water treatment apparatus includes a filter for purifying raw water; A tank unit connected to the filter unit and having at least one tank for storing water; A sterilization unit for sterilizing water, the flow path being formed so that the water stored in the tank passes through the sterilization unit to be discharged to the outside, and the water stored in the tank passes through the sterilization unit to be stored again in the tank. Sterilization unit including a flow path formed to; And sterilizing and discharging the water stored in the tank unit through the sterilizing unit and discharging to the outside, and controlling the circulating sterilization operation in which the water stored in the tank unit periodically passes through the sterilizing unit and is re-stored in the tank unit. It includes a control unit.

Description

WATER STERILIZATION SYSTEM OF WATER TREATMENT APPARATUS}

The present invention relates to a water sterilization flow path structure of a water treatment device, and more particularly, to a water sterilization flow path structure of a water treatment device capable of performing a function of circulating sterilization of water stored in a tank.

In general, the water purifier is classified into a hollow fiber membrane method and a reverse osmosis membrane method according to the water purification method.

Of these, the reverse osmosis membrane type water purifier is known to be superior to other water purification methods developed so far in removing contaminants.

The reverse osmosis membrane type water purifier receives raw water from tap water and the like and removes dust, debris and various suspended substances through a fine filter of about 5 microns, and a carcinogen (THM) by using an activated carbon adsorption method. It consists of a free carbon filter that removes harmful chemicals such as synthetic detergents and insecticides and residual chlorine, and a reverse osmosis membrane of 0.0001 micron to filter heavy metals such as lead and arsenic, as well as sodium and various pathogens. The reverse osmosis membrane filter (RO membrane filter) to be discharged through, and the filter unit including a post carbon filter for removing the unpleasant taste and smell, pigments, etc. contained in the water passing through the reverse osmosis membrane filter.

In addition, a hollow fiber membrane type water purifier uses a hollow fiber membrane filter (ultrafiltration filter, UF) instead of the said reverse osmosis membrane filter. The hollow fiber membrane filter is a porous filter having pores of several tens to hundreds of nanometers (nm) in size, and removes contaminants in water through the myriad of micropores distributed on the membrane surface.

However, such a water purifier has a problem that microorganisms or bacteria remaining in the pores of the post carbon filter may be introduced into the storage tank so that the microorganisms may re-grow in the storage tank. In addition, bacteria or microorganisms may penetrate and purify the purified water stored in the storage tank from outside, and scale may occur on the inner wall of the storage tank.

Thus, in order to sterilize bacteria or microorganisms propagated in the storage tank, a technique for sterilizing the storage tank by adding a separate sterilizing agent to the storage tank from the outside has been proposed.

However, such a sterilizing drug supply method has a problem that the user or the water purifier manager is performed through a separate sterilizing chemical supply operation, so that the sterilizing operation is cumbersome and the sterilization management is inefficient.

In order to solve the problem of the water purifier sterilizing using such sterilizing chemicals, a method of automatically sterilizing a storage tank using a sterilizing unit has been proposed.

1 (a) and (b) is a schematic diagram showing the structure of a conventional ultraviolet sterilizing water purifier, as shown in Figures 1 (a) and (b), in general, conventional sterilizing water purifier is a raw water such as water Raw water supplied from the supply unit 10 may be filtered through the purified water filter 20, and the filtered purified water may be sterilized through the sterilizing unit 20 using ultraviolet sterilization or electrolytic sterilization.

In addition, the sterilizing water purifier may be provided with a cold water tank (40) for storing the purified water at room temperature and the purified water stored at room temperature, and the cold water tank (50) for cooling the stored purified water. And sterilized purified water through the faucet or coke 60 connected to each of the cold water tank 50 can be extracted.

On the other hand, in the conventional water purifier structure, the room temperature water tank 40 and the cold water tank 50 are each formed in the vertical direction while being connected to each other, the room temperature water tank 40 is located on the upper side, the cold water tank 50 is a room temperature water tank ( 40) is located below.

Here, the room temperature water tank 40 and the cold water tank 50 are each formed in a vertical direction through a separator through which water can pass and are configured to communicate with each other.

However, the conventional sterilizing water purifier is a sterilization unit 30 is installed in the flow path between the room temperature water tank 40 and the cold water tank 50 and the water filter 20, as shown in (a) of FIG. In the case where the purified water filtered at 20 passes through the sterilization unit 30 and is sterilized and then stored in the normal temperature water tank 40 and the cold water tank 50, the sterilized water is stored in the normal temperature water tank 40 and the cold water tank ( If it is stored for a long time in 50), the bacteria are re-contaminated in the water stored in the tank, and the sterilized water is recontaminated.

In particular, the method of sterilizing water using ultraviolet rays is more susceptible to recontamination because chlorine is not generated in the water, unlike the method of sterilizing water using electrolysis.

On the other hand, as shown in Figure 1 (b), by installing the sterilization unit 20 at the rear end of the normal temperature water tank 40 and the cold water tank 50, stored in the normal temperature water tank 40 and the cold water tank 50 When the water is configured to sterilize the water extracted when it is extracted through the pouchet or the coke 60, since the sterilization unit 30 must be installed in each of the flow path from which the room temperature and cold water are extracted, the manufacturing cost of the device increases and the It has the disadvantage of being bulky.

In addition, in order to prevent this, when the room water and the cold water share a sterilization unit 20, the first cup of cold water extracted by mixing the room temperature water and the cold water remaining on the flow path may not be provided at a desired temperature. do.

On the other hand, since the water is configured to flow in and out between the room temperature water tank 40 and the cold water tank 50 as described above, one sterilization capable of sterilizing the entire water contained in the room temperature water tank 40 and the cold water tank 50 Although the case of installing the unit 30 can be considered, in this case, due to the new sterilized water flowing into the room temperature water tank 40 from the purified water filter 20 is stored in the room temperature water tank 40 and the cold water tank 50. There is a problem that the entire water is polluted.

The present invention has been made to solve at least some of the problems of the prior art, as one aspect, to provide a water sterilization flow path structure of the water treatment apparatus capable of periodically circulating sterilization of the water stored in the tank of the water treatment apparatus. The purpose.

In another aspect, an object of the present invention is to provide a water sterilization flow path structure of a water treatment apparatus capable of providing completely sterilized room temperature and cold water using one sterilization unit.

In another aspect, an object of the present invention is to provide a water sterilization flow path structure of the water treatment device configured to operate the sterilization unit only during the sterilization operation of water.

As one aspect for achieving at least some of the above objects, the present invention includes a filter for purifying raw water; A tank unit connected to the filter unit and having at least one tank for storing water; A sterilization unit for sterilizing water, the flow path being formed so that the water stored in the tank passes through the sterilization unit to be discharged to the outside, and the water stored in the tank passes through the sterilization unit to be stored again in the tank. Sterilization unit including a flow path formed to; And sterilizing and discharging the water stored in the tank unit through the sterilizing unit and discharging to the outside, and controlling the circulating sterilization operation in which the water stored in the tank unit periodically passes through the sterilizing unit and is re-stored in the tank unit. It provides a water sterilization flow path structure of the water treatment device comprising a control unit.

Preferably, the tank unit comprises a first tank for storing water passing through the filter unit; And a second tank storing sterilized water flowing out of the first tank and passing through the sterilizing unit, wherein the first tank and the second tank may be separated so that the inflow and outflow of water is blocked from each other.

Also preferably, the control unit is the sterilization unit is extracted from the first tank to the outside, the water extracted from the first tank and stored in the second tank and the second tank is extracted from the passing through the sterilization unit And the sterilization unit can be controlled to sterilize the water to be re-sterilized.

Also preferably, the flow path structure may include a first extraction part for extracting water stored in the first tank; And a second extracting unit extracting water stored in the second tank.

Also preferably, the sterilization unit may include: a first extraction passage connecting the first tank and the first extraction unit and having the sterilization unit installed; A storage passage branched from the first extraction passage at the rear end of the sterilization unit and connected to the second tank; A second extraction passage connecting the second tank and the second extraction unit; And a bypass passage branched from the second extraction passage and connected to the first extraction passage at the front side of the sterilization unit.

More preferably, the bypass passage may be further provided with a pump for moving water.

More preferably, the connection portion between the first extraction passage and the bypass passage may be provided with a flow path switching valve for selectively connecting the bypass passage to the first extraction passage.

In this configuration, when the sterilizing water is extracted from the first extraction means, the control unit is such that the flow path switching valve connects the first tank and the sterilization unit, when the water stored in the second tank is circulating sterilization, A flow path switching operation of the flow path switching valve may be controlled so that the flow path switching valve connects the bypass flow path and the sterilization unit.

Also, the control unit may control the flow path switching valve so that the flow path is switched in the direction of the sterilization unit from the first tank when the first extraction unit is opened while the water stored in the second tank is circulated and sterilized. .

More preferably, the storage passage may further include a check valve for blocking the water stored in the second tank from flowing back from the storage passage.

On the other hand, the first tank is provided with an air vent, the second tank is provided with an air flow pipe connected to the air vent of the first tank, the first tank and the second tank is configured to share the air vent It may be.

On the other hand, preferably, the first tank is directly connected to the filter unit is composed of a room temperature water tank for storing the water at room temperature, the second tank may be configured as a cold water tank for cooling the stored water.

Also preferably, the first tank and the second tank may be configured as an integrated enclosure, and the separating member separating the first tank and the second tank may be configured to be openable and closed.

In addition, in one embodiment, the sterilization unit may be configured as an ultraviolet sterilizer.

On the other hand, as another aspect, the present invention is a filter unit for purifying raw water; A storage tank in which purified water purified by the filter unit is stored; A sterilization unit for sterilizing water, the flow path formed so that the water passing through the filter unit is discharged to the outside immediately after passing through the sterilization unit, and the water stored in the storage tank passes through the sterilization unit to be returned to the storage tank. Sterilization unit including a flow path formed to be stored; And sterilizing and discharging operation in which water passing through the filter unit is immediately discharged through the sterilizing unit, and controlling a circulating sterilization operation in which water stored in the storage tank passes through the sterilizing unit and is re-stored in the storage tank. It provides a water sterilization flow path structure of the water treatment device comprising a control unit.

Preferably, the control unit is the sterilization unit is extracted directly from the water passing through the filter unit to the outside immediately after passing through the filter unit, the water stored in the storage tank and the storage tank is passed through the sterilization unit and re-sterilized The sterilization unit can be controlled to sterilize the water.

Also preferably, the flow path structure may include a first extraction part for directly extracting water passing through the filter part; And a second extracting unit extracting water stored in the storage tank.

Also preferably, the sterilization unit may include: a first extraction passage connecting the filter unit and the first extraction unit and having the sterilization unit installed; A storage passage branched from the first extraction passage at the rear end of the sterilization unit and connected to the storage tank; A second extraction passage connecting the storage tank and the second extraction unit; And a bypass passage branched from the second extraction passage and connected to the first extraction passage at the front side of the sterilization unit.

More preferably, the bypass passage may further include a pump for moving water, and a connection portion between the first extraction passage and the bypass passage may selectively connect the bypass passage to the first extraction passage. A switching valve may be provided.

In this configuration, when the water sterilized in the first extraction unit is extracted, the flow path switching valve to connect the filter unit and the sterilization unit, when the water stored in the storage tank is circulated sterilization, A flow path switching operation of the flow path switching valve may be controlled so that the flow path switching valve connects the bypass flow path and the sterilization unit.

Further, the control unit may control the flow path switching valve so that the flow path is switched in the direction of the sterilization unit from the filter unit when the first extraction unit is opened while the water stored in the storage tank is circulated and sterilized.

On the other hand, the storage passage may further include a check valve for blocking the water stored in the cold water tank from flowing back from the storage passage.

In another embodiment, the sterilization unit may be configured as an ultraviolet sterilizer.

On the other hand, as another aspect, the flow path in front of the sterilization unit may be further provided with a flow sensor, the control unit turns on the sterilization unit (ON) when the water flow is detected by the flow sensor, the water flow is not detected If not, the sterilization unit can be turned off.

On the other hand, the rear end of the sterilization unit may be provided with a mechanical extraction unit including an operating lever for extracting the sterilizing water, the sterilization unit may be operated in conjunction with the operation of the operating lever of the mechanical extraction unit.

The mechanical extracting unit may include a magnet attached to the operating lever and an MR sensor interlocked with the operation of the magnet, and include a magnet attached to the operating lever and a reed switch interlocked with the operation of the magnet. It may be configured.

According to one embodiment of the present invention having such a configuration, it is possible to obtain an effect that can be provided to the user completely sterile water by periodically circulating sterilization of water that can be stored and recontaminated in the tank in the water treatment apparatus.

In addition, according to one embodiment of the present invention, by using one sterilization unit, sterilization of the extracted room temperature water can be immediately provided to the user and circulating sterilization of the sterilized water stored in the cold water tank, The manufacturing cost of the water treatment device can be reduced and the volume of the device can be reduced.

In addition, according to one embodiment of the present invention, the sterilization unit is configured to operate only during the sterilization operation of the water treatment device through the ON / OFF control of the sterilization unit, it is possible to reduce the power consumed in the device, the use of the sterilization unit The effect of extending the life can be obtained.

In addition, according to one embodiment of the present invention, it is possible to control the ON / OFF of the sterilization unit with a simple structure through the mechanical extraction unit, it is possible to obtain the effect of reducing the manufacturing cost of the water treatment device.

1 is a schematic view showing the structure of a conventional sterilizing water purifier.
Figure 2 is a schematic diagram showing the water sterilization flow path structure of the water treatment device according to an embodiment of the present invention.
Figure 3 is a schematic diagram showing the flow of water in the sterilized water storage of the water sterilization flow path structure of the water treatment apparatus shown in FIG.
Figure 4 is a schematic diagram showing the flow of water during the circulation sterilization of the water sterilization flow path structure of the water treatment apparatus shown in FIG.
Figure 5 is a schematic diagram showing the water sterilization flow path structure of the water treatment device according to another embodiment of the present invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Furthermore, the singular forms "a", "an," and "the" include plural referents unless the context clearly dictates otherwise.

In this specification, terms such as " comprise ", " comprise ", and " have "mean that there exist features, numbers, steps, operations, elements, parts, And should not be construed to preclude the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, the water sterilization flow path structure of the water treatment device according to an embodiment of the present invention will be described with reference to FIGS. 2 to 4. 2 is a schematic view of the water sterilization flow path structure of the water treatment apparatus according to an embodiment of the present invention, Figure 3 is a schematic diagram showing the flow of water during storage of sterilized water for the second tank, Figure 4 is a second tank Schematic diagram showing the flow of water during circulation sterilization of stored water.

As shown in Figure 2, the water sterilization passage structure 100 of the water treatment apparatus according to an embodiment of the present invention is a raw water supply unit 110, filter unit 120, tank unit 130, sterilization unit 140 And a controller 150.

The raw water supply unit 110 is a facility that can supply raw water, such as water supply, it can supply raw water to the water treatment device.

On the other hand, the filter unit 120 may purify the raw water supplied from the raw water supply unit 110 to generate purified water. In one embodiment, the filter unit 120 is connected to the tank of the tank unit 130 to be described later, the purified water filtered by the filter unit 120 may be stored in the tank provided in the tank unit 130. It can be configured to be.

The filter unit 120 may be configured to sequentially filter and purify the raw water, sediment filter, pre-carbon filter, reverse osmosis membrane filter (or hollow fiber membrane (ultrafiltration) filter), and post carbon filter It may include, but the type, number and order of the filter may be changed according to the filtration method of the water purifier or the filtration performance required for the water purifier. For example, a hollow fiber membrane filter may be provided instead of the reverse osmosis membrane filter.

In addition, a post carbon filter may not be provided, and a micro filter (MF) or another functional filter may be provided in place of or in addition to the above-described filter.

Here, although not shown, each filter includes a filter case incorporating a filter element and an external case accommodating the filter case, wherein raw water obtained into the external case is filtered by the filter element inside the filter case. Afterwards it may be made of a cartridge structure which is discharged to the outside of the outer case.

It may also be composed of a composite filter having the function of two or more filters. For example, the sediment filter and the free carbon filter may be configured as a single pretreatment composite filter.

Since the filters of the filter unit 120 are widely used in general water purifiers as filters having a conventional structure well known in the art, the description of the configuration will be omitted herein.

On the other hand, the tank 130 may be connected to the filter unit 120 through a flow path, and may include at least one tank that can store water.

In one embodiment, the tank unit 130 is directly connected to the filter unit 120 and stored in the first tank 131 and the first tank 131 through which the purified purified water is stored through the filter unit 120. A portion of the purified water may include a second tank 132 stored in a sterilized state through the sterilization unit 142 to be described later.

In addition, the first tank 131 and the second tank 132 may be separated so that the stored water is not interchanged with each other.

In one embodiment, the first tank 131 and the second tank 132 may be configured as an integral enclosure, as shown in Figures 2 to 4, the first tank 131 and the second tank 132 By the separating member 135 for separating the water can flow in and out of each other.

In addition, the separating member 135 may be configured to be opened and closed to facilitate maintenance and cleaning of the first tank 131 and the second tank 132 formed integrally.

As described above, in the structure in which the first tank 131 and the second tank 132 are separated from each other, bacteria of water stored in any one of the first tank 131 and the second tank 132 are transferred to the other tank. There is an advantage to be prevented.

The first tank 131 and the second tank 132 are storage means provided to store water at different temperatures in the water treatment apparatus. In one embodiment, the first tank 131 is connected to the filter unit 120. It may be directly connected to the room temperature water tank is stored at room temperature water, the second tank 132 may be configured as a cold water tank for cooling the stored water, but is not limited to this, the first tank 131 and The second tank 132 may be configured of various functional tanks for storing ionized water, carbonated water, and the like.

In addition, the tank 130 may be further provided with a hot water tank 133 for heating the stored water so that the water treatment apparatus can provide hot water to the user. Here, the hot water tank 133 may be connected to the first tank 131 to receive a portion of the purified water stored in the first tank 131. To this end, a flow path may be provided between the first tank 131 and the hot water tank 133, and a shutoff valve (not shown) may be provided on the flow path between the first tank 131 and the hot water tank 133. .

For reference, since the hot water stored in the hot water tank 133 may be sterilized through high temperature heating, a separate sterilization action is required unlike the first tank 131 in which normal temperature water is stored and the second tank 132 in which cold water is stored. You can't.

Therefore, the hot water tank 133 may be provided with a hot water extracting unit 153 directly connected to the hot water tank 133 without being connected to the sterilization unit 140 to be described later.

In addition, in one embodiment, the first tank 131 may be provided with an air vent 136 for the intake and discharge of air according to the inflow and outflow of water in the tank, which is a closed space, the second tank 132 1 may be provided with an air distribution pipe 137 connected to the tank 131. Through this, the first tank 131 and the second tank 132 can share the air vent 136 provided in the first tank 131.

As such, the configuration in which the first tank 131 and the second tank 132 share one air vent 136 has an effect of minimizing a path through which contaminants are introduced into the tank from the outside.

However, the present invention is not limited thereto, and the air vent 136 may be provided in each of the first tank 131 and the second tank 132.

On the other hand, the sterilization unit 140 may be configured to include a sterilization unit 142 and a plurality of flow paths for sterilizing water.

In one embodiment, the rear end of the sterilization unit 140, the first extraction unit 151 for extracting the water stored in the first tank 131 and the second extraction unit for extracting the water stored in the second tank 132 ( 152 may be provided, and in this case, the first extraction unit 151 and the second extraction unit 152 may be combined to constitute one extraction means.

Although not shown, in the case where the first extraction unit 151 and the second extraction unit 152 are combined, the rear ends of the first extraction channel 144 and the second extraction channel 145 to be described later are connected to each other. It may be configured, the connection portion may be provided with a flow path switching valve.

The first extraction unit 151 and the second extraction unit 152, and the extraction means may be composed of a facet or coke.

In addition, in one embodiment, the sterilization unit 142 may be configured as an ultraviolet (UV) sterilizer for sterilizing water by irradiating ultraviolet rays. However, the sterilization unit 142 included in the present invention is not limited to the ultraviolet sterilizer, but may be configured as an electrolytic sterilizer.

The sterilization unit 140 has a flow path formed so that the water stored in the first tank 131 can be discharged to the outside through the sterilization unit 142, the water stored in the second tank 132 sterilization unit 142 It includes a flow path formed to be re-stored in the second tank 132 through.

To this end, in one embodiment, the sterilization unit 140 has a first extraction channel 144, a second extraction channel 145, a storage channel 146, and a bypass channel 147 as illustrated in FIGS. 2 to 4. ) May be included.

Here, the first extraction passage 144 is formed to connect the first tank 131 and the first extraction unit 151, the sterilization unit 142 is installed on the flow path of the first extraction passage 144.

In addition, the second extraction passage 145 is formed to connect the second tank 132 and the second extraction unit 152.

In addition, the storage passage 146 is formed to branch on the flow path at the rear end side of the sterilization unit 142 of the first extraction passage 144 to be connected to the second tank 132.

In addition, the bypass passage 147 is formed to branch from the second extraction passage 145 to be connected to the first extraction passage 144 on the front side of the sterilization unit 142.

Here, the bypass passage 147 may further include a pump 300 for moving the water stored in the second tank 132 to the first extraction passage 144.

In addition, the connection portion of the first extraction passage 144 and the bypass passage 147 may move the water discharged from the first tank 131 and the water discharged from the bypass passage 147 toward the sterilization unit 142. A flow path switching valve 400 for selectively connecting the bypass flow path 147 to the first extraction flow path 144 may be provided.

On the other hand, the controller 150 is a sterilization discharge operation in which the water stored in the first tank 131 is discharged to the outside through the sterilization unit 142, and the water stored in the second tank 132 periodically sterilization unit ( 142 to control the circulation sterilization operation is restored to the second tank (132).

To this end, in one embodiment the control unit 150 controls the sterilization unit 142, water extracted from the first tank 131 to the outside, extracted from the first tank 131 to the second tank 132 The water to be stored and extracted from the second tank 132 periodically pass through the sterilization unit 142 to re-sterilize the water to be sterilized.

Here, the control of the sterilization unit 142 to turn on the sterilization unit 142 through the application of electricity to the sterilization unit 142 when water passes through the sterilization unit 142, when the water does not pass through the sterilization unit It can be implemented by turning off the electricity supplied to the 142.

Looking at the sterilization discharge operation in which the sterilized water is supplied through the first extraction unit 151 in the water sterilization flow path structure 100 of the water treatment apparatus according to the embodiment having such a configuration, the user extracts the first When requesting the extraction of the room temperature water through the unit 151, the room temperature water stored in the first tank 131 may be moved to the first extraction channel 144 to be sterilized while passing through the sterilization unit 142. 1 can be supplied to the user through the extraction unit 151.

At this time, the storage passage 146 may be further provided with a check valve 420 to block the water stored in the second tank 132 flows back from the storage passage 146 to the first extraction passage 144. have.

Meanwhile, referring to the sterilization storage operation in which sterilized water is stored in the second tank 132, as shown in FIG. 3, the room temperature water stored in the first tank 131 moves to the first extraction channel 144 to sterilize the unit. The sterilized water may pass through 142 and the sterilized water may be transferred to the storage flow passage 146 and stored in the second tank 132.

In addition, in one embodiment, when the second tank 132 is configured as a cold water tank, the water stored in the second tank 132 may be cooled. In this configuration, when the user requests the extraction of cold water through the second extraction unit 152, the cold water stored in the second tank 132 may be transferred to the user through the second extraction channel 145 and the second extraction unit 152. Can be supplied.

In this case, the storage operation of the sterilized water for the second tank 132 may be performed when the water level of the water stored in the second tank 132 is detected so that the water stored in the second tank 132 is not at full water level.

Meanwhile, referring to the circulating sterilization operation in which sterilized water stored in the second tank 132 is periodically sterilized and re-stored, as shown in FIG. 4, the water stored in the second tank 132 is extracted from the second. Extracted into the flow path 145 may be moved to the bypass flow path (147).

At this time, the controller 150 operates the pump 300 to allow the water stored in the second tank 132 to move from the second tank 132 to the flow path switching valve 400, and bypass gas passage 147. And a flow path of the flow path switching valve 400 to be connected to the first extraction flow path 144.

In addition, the water moved to the bypass flow path 147 is moved to the first extraction flow path 144 and passes through the sterilization unit 142 to be stored in the second tank 132 again through the storage flow path 146. .

In the water sterilization flow path structure 100 of the water treatment apparatus according to an embodiment of the present invention, the circulating sterilization operation as described above may be performed at a predetermined cycle, and the cycle may include bacteria in water stored in the second tank 132. This can be determined in consideration of the breeding time.

For example, when the sterilized water stored in the second tank 132 is regenerated after 10 hours of bacteria, the sterilized water stored in the second tank 132 is circulated and resterilized. The period of time may be set to 10 hours.

On the other hand, if the first extraction unit 151 is opened during the circulation sterilization operation, the control unit 150 controls the flow path switching valve 400 to switch the flow path in the direction of the sterilization unit 142 in the first tank 131. Can be. By doing so, when the user requests the sterilized water at room temperature through the first extraction unit 151 during the circulation sterilization operation, the flow of water that is circulated and sterilized is blocked, and the purified water stored in the first tank 131 is Can be made available to the user immediately.

On the other hand, in the water sterilization flow path structure 100 of the water treatment apparatus according to an embodiment of the present invention, when the first tank 131 is configured as a normal temperature water tank and the second tank 132 is configured as a cold water tank, circulation sterilization After the operation is performed, cold water remains in the first extraction passageway 144 and the sterilization unit 142, and the remaining cold water may increase in temperature to become room temperature water.

Here, when the user requests the room temperature water through the first extraction unit 151, the water remaining in the first extraction channel 144 and the sterilization unit 142 together with the room temperature water stored in the first tank 131. Will be extracted.

At this time, since the remaining cold water is at room temperature, the first cup of water extracted through the first extraction unit 151 may be a temperature desired by the user. That is, the cold water is not mixed with the first cup of water extracted can be provided room temperature water.

As such, the water sterilization flow path structure 100 of the water treatment apparatus according to an embodiment of the present invention may immediately discharge 100% sterilized room temperature water through one sterilization unit 142, and discharge the cold water stored in the cold water tank. It can be circulated periodically and re-sterilized to discharge 100% sterilized cold water.

On the other hand, in the water sterilization flow path structure 100 of the water treatment device according to an embodiment of the present invention, the flow path of the front end of the sterilization unit 142 may be further provided with a flow sensor 500 for detecting the water flow. .

Here, the controller 150 turns on the sterilization unit 142 when the water flow is detected by the flow sensor 500, and turns off the sterilization unit 142 when the water flow is not detected in the flow path. Can be. In other words, the sterilization unit 142 may be operated only when water passes, and the operation may be stopped when water does not pass.

Through this, the sterilization unit 142 can be operated only when necessary to reduce the power consumption of the water treatment device. In particular, in the case where the sterilization unit 142 is configured as an ultraviolet sterilizer, the ultraviolet sterilizer generally has an operating life, and by operating such an ultraviolet sterilizer only when necessary, an effect of extending the service life of the ultraviolet sterilizer is obtained. Can be.

In addition, as another example of controlling the ON / OFF of the sterilization unit 142 as described above, the first extraction unit 151 may be configured as a mechanical extraction unit (not shown) including an operating lever (not shown). In addition, the sterilization unit 142 may be operated in conjunction with the operation of the operating lever of the mechanical extraction unit.

Here, the mechanical extraction means an extraction means of the way that the extraction flow path is opened by the user's pressure, for example, there is a mechanical coke or a facet that the operating lever is pressed to open the flow path.

In one embodiment, the mechanical extraction unit may be configured to include a magnet (MR) sensor that is linked to the operation of the magnet and the magnet attached to the operation lever.

In such a configuration, when the user operates the operating lever of the first extraction unit 151 composed of the mechanical extraction unit to extract the purified water, the magnet attached to the operating lever is moved, and the MR sensor is operated by the movement of the magnet. The sterilization unit 142 connected to the MR sensor is operated.

In another embodiment, the mechanical extracting unit may include a magnet attached to the operation lever and a reed switch interlocked with the operation of the magnet.

In such a configuration, when the user operates the operation lever of the first extraction unit 151 composed of the mechanical extraction unit to extract the purified water, the magnet attached to the operation lever is moved, and the reed switch is operated by the movement of the magnet. The sterilization unit 142 connected to the reed switch is operated.

As a result, when the first extraction unit 151 is composed of a mechanical extraction unit including an MR sensor and a reed switch as described above, the sterilization unit 142 is a water extraction unit in the first tank 131 first extraction unit ( 151 can be actuated when extracted.

As such, when the first extraction unit 151 is configured as a mechanical extraction unit including an MR sensor or a reed switch, the manufacturing cost of the water treatment device may be reduced compared to the case where the operation control of the sterilization unit 142 is electronically configured. There are advantages to it.

Next, with reference to Figure 5 looks at the water sterilization flow path structure of the water treatment apparatus according to another embodiment of the present invention. 5 is a schematic view of the water sterilization flow path structure of the water treatment device according to another embodiment of the present invention.

As shown in FIG. 5, the water sterilization flow path structure 100 ′ of the water treatment device according to another embodiment of the present invention is an embodiment applied to a direct type water treatment device, and the present invention described with reference to FIGS. 2 to 4. In the water sterilization flow path structure 100 of the water treatment apparatus according to an embodiment of the first tank 131 in which the purified water is stored by the filter unit 120 is excluded, the purified water purified by the filter unit 120 Is immediately configured to be provided to the sterilization unit 140.

The raw water supply unit 110, the filter unit 120, the hot water tank 133 and the sterilization unit 140, the sterilization unit 142, the first extraction passage 144, the second extraction passage 145, storage passage 146, the bypass flow path 147, the pump 300, the flow path switching valve 400, the check valve 420, the first extraction part 151, and the second extraction part 152 are illustrated in FIGS. 2 to 4. Since it is substantially the same as that included in the water sterilization flow path structure 100 of the water treatment apparatus according to an embodiment of the present invention described with reference to the description thereof will be omitted.

However, in general, since the room temperature water is supplied from the raw water supply unit 110, the second tank 132 serving as a storage tank may be configured as a cold water tank for cooling the stored water. However, the present invention is not limited thereto, and the second tank 132 may include various functional tanks such as a carbonated water tank and an ionized water tank.

In addition, in the water sterilization flow path structure 100 ′ of the water treatment apparatus according to another embodiment of the present invention, the water passing through the filter unit 120 is passed through the filter unit 120 and the first to distribute the water to the sterilization unit 140. A connection channel 160 connected to the extraction channel 144 may be formed, and the water passing through the filter unit 120 is branched from the connection channel 160 to be supplied to the hot water tank 133. Supply passages 170 connected to each other may be formed.

In addition, a flow path may be switched at a branch point of the connection channel 160 and the supply channel 170 so that the purified water passing through the filter unit 120 may be selectively supplied to the first extraction channel 144 and the hot water tank 133. A flow path switching valve 400 may be further provided.

In addition, the air vent 136 for the inflow and outflow of air in the tank may be provided in the cold water tank.

In the water sterilization passage structure 100 ′ of the water treatment apparatus according to another embodiment of the present invention having such a configuration, when the user requests room temperature water, the user may directly receive water using the water pressure of the raw water supply unit 110. Sterilized purified water at room temperature may be provided, and when the user requests cold water, cold water in a 100% sterilized state may be provided to the user through periodic circulation sterilization.

In addition, the water sterilization passage structure 100 ′ of the water treatment apparatus according to another embodiment of the present invention is the water sterilization passage structure 100 of the water treatment apparatus according to the embodiment of the present invention described above with reference to FIGS. 2 to 4. Similarly, the flow rate sensor 500 may be provided to control the operation of the sterilization unit 142, and the first extraction unit 151 may be configured as a mechanical extraction unit including an MR sensor or a reed switch.

Here, the control of the sterilization unit 142 using the flow sensor 500 and the control of the sterilization unit 142 using the mechanical extraction unit are substantially the same as described above with reference to FIGS. 2 to 4, and thus description thereof will be omitted.

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, 100 ': Water sterilization flow path structure of water treatment device
110: raw water supply unit 120: filter unit
130: tank portion 131: first tank
132: second tank 133: hot water tank
135: separation member 136: air vent
137: air distribution pipe 140: sterilization unit
142: sterilization unit 144: first extraction flow path
145: second extraction flow path 146: storage flow path
147: bypass euro 150: control unit
151: first extraction unit 152: second extraction unit
153: hot water extraction unit 300: pump
400: flow path switching valve 420: check valve
500: flow sensor

Claims (28)

A filter unit for purifying raw water;
A tank unit connected to the filter unit and having at least one tank for storing water;
A sterilization unit for sterilizing water, the flow path being formed so that the water stored in the tank passes through the sterilization unit to be discharged to the outside, and the water stored in the tank passes through the sterilization unit to be stored again in the tank. Sterilization unit including a flow path formed to; And
Controlling the sterilization discharge operation in which the water stored in the tank portion is discharged to the outside through the sterilization unit, and the circulation sterilization operation in which the water stored in the tank portion periodically passes through the sterilization unit and is re-stored in the tank portion. Control unit;
Water sterilization flow path structure of the water treatment device comprising a. The method of claim 1,
The tank unit,
A first tank storing water passing through the filter unit; And
And a second tank storing sterilized water flowing out of the first tank and passing through the sterilization unit.
The first tank and the second tank is a water sterilization flow path structure of the water treatment device, characterized in that separated from each other configured to block the flow of water. 3. The method of claim 2,
The control unit,
The sterilization unit sterilizes water extracted from the first tank to the outside, water extracted from the first tank and stored in the second tank, and water extracted from the second tank and passed through the sterilization unit and resterilized Water sterilization flow path structure of the water treatment device, characterized in that for controlling the sterilization unit. 3. The method of claim 2,
A first extracting unit extracting water stored in the first tank; And
And a second extracting unit extracting water stored in the second tank. 2. 5. The method of claim 4,
The sterilization unit,
A first extraction passage connecting the first tank and the first extraction unit and provided with the sterilization unit;
A storage passage branched from the first extraction passage at the rear end of the sterilization unit and connected to the second tank;
A second extraction passage connecting the second tank and the second extraction unit; And
A bypass passage branched from the second extraction passage and connected to the first extraction passage at the front end of the sterilization unit;
Water sterilization flow path structure of the water treatment device, characterized in that configured to include. The method of claim 5,
The bypass passage is a water sterilization flow path structure of the water treatment device, characterized in that further provided with a pump for moving the water. The method of claim 5,
The connection portion between the first extraction passage and the bypass passage is a water sterilization passage structure of the water treatment apparatus, characterized in that the flow path switching valve for selectively connecting the bypass passage to the first extraction passage. The method of claim 7, wherein
The control unit,
The flow path switching valve is connected to the first tank and the sterilization unit during the sterilization discharge operation,
The water sterilization flow path structure of the water treatment device, characterized in that during the circulation sterilization operation, the flow path switching valve to control the flow path switching operation of the flow path switching valve to connect the bypass flow path and the sterilization unit. The method of claim 7, wherein
The control unit,
When the first extraction unit is opened while the water stored in the second tank is circulating sterilization, the water flow sterilization of the water treatment device, characterized in that for controlling the flow path switching valve so that the flow path is switched in the direction of the sterilization unit in the first tank. Euro structure. The method of claim 5,
The storage flow passage further comprises a check valve for preventing water stored in the second tank from flowing back from the storage flow passage. 3. The method of claim 2,
The first tank is provided with an air vent, the second tank is provided with an air flow pipe connected to the air vent of the first tank,
The first tank and the second tank is a water sterilization flow path structure of the water treatment device, characterized in that the common air vent. The method according to any one of claims 2 to 11,
The first tank is directly connected to the filter portion is composed of a room temperature water tank in which water at room temperature is stored,
The second tank is a water sterilization flow path structure of the water treatment device, characterized in that consisting of a cold water tank for cooling the stored water. 3. The method of claim 2,
The first tank and the second tank is composed of an integral enclosure,
Separation member for separating the first tank and the second tank is water sterilization flow path structure of the water treatment device, characterized in that configured to open and close. The method of claim 1,
The sterilization unit is a water sterilization flow path structure of the water treatment device, characterized in that consisting of an ultraviolet sterilizer. A filter unit for purifying raw water;
A storage tank in which purified water purified by the filter unit is stored;
A sterilization unit for sterilizing water, the flow path formed so that the water passing through the filter unit is discharged to the outside immediately after passing through the sterilization unit, and the water stored in the storage tank passes through the sterilization unit to be returned to the storage tank. Sterilization unit including a flow path formed to be stored; And
Control unit for controlling the sterilization discharge operation that the water passing through the filter unit is immediately discharged to the outside through the sterilization unit, and the circulation sterilization operation that the water stored in the storage tank passes through the sterilization unit and is re-stored in the storage tank ;
Water sterilization flow path structure of the water treatment device comprising a. 16. The method of claim 15,
The control unit,
The sterilization unit to pass through the filter unit immediately to the outside, the water to pass through the filter unit is stored in the storage tank and the extraction from the storage tank to pass through the sterilization unit to sterilize the water to be re-sterilized Water sterilization flow path structure of the water treatment device, characterized in that for controlling the sterilization unit. 16. The method of claim 15,
A first extracting unit for directly extracting water passing through the filter unit; And
And a second extraction part for extracting water stored in the storage tank. 18. The method of claim 17,
The sterilization unit,
A first extraction channel connecting the filter unit and the first extraction unit and provided with the sterilization unit;
A storage passage branched from the first extraction passage at the rear end of the sterilization unit and connected to the storage tank;
A second extraction passage connecting the storage tank and the second extraction unit; And
A bypass passage branched from the second extraction passage and connected to the first extraction passage at the front end of the sterilization unit;
Water sterilization flow path structure of the water treatment device, characterized in that configured to include. 19. The method of claim 18,
The bypass passage is a water sterilization flow path structure of the water treatment device, characterized in that further provided with a pump for moving the water. 19. The method of claim 18,
The connection portion between the first extraction passage and the bypass passage is a water sterilization passage structure of the water treatment apparatus, characterized in that the flow path switching valve for selectively connecting the bypass passage to the first extraction passage. 21. The method of claim 20,
The control unit,
When the sterilized water is extracted from the first extraction unit, the flow path switching valve connects the filter unit and the sterilization unit,
When the water stored in the storage tank is circulated and sterilized, the water flow path structure of the water treatment apparatus, characterized in that for controlling the flow path switching operation of the flow path switching valve to connect the bypass flow path and the sterilization unit. . 21. The method of claim 20,
The control unit,
When the first extraction portion is opened while the water stored in the storage tank is circulated and sterilized, the water flow path flow passage structure of the water treatment device, characterized in that for controlling the flow path switching valve so that the flow path is switched in the direction of the sterilization unit in the filter unit. . 19. The method of claim 18,
The storage passage further comprises a check valve for preventing water stored in the storage tank from flowing back from the storage passage. 16. The method of claim 15,
The sterilization unit is a water sterilization flow path structure of the water treatment device, characterized in that consisting of an ultraviolet sterilizer. The method according to claim 1 or 15,
The flow path in front of the sterilization unit is further provided with a flow sensor,
The control unit turns on the sterilization unit when the water flow is detected by the flow sensor (ON), and if the water flow is not detected, the water sterilization flow path structure of the water treatment apparatus, characterized in that (OFF). The method according to claim 1 or 15,
The rear end of the sterilization unit is provided with a mechanical extraction unit including an operating lever for extracting sterilized water,
The sterilization unit is a water sterilization flow path structure of the water treatment device, characterized in that operated in conjunction with the operation of the operating lever of the mechanical extraction unit. The method of claim 26,
The mechanical extraction unit,
And a magnet attached to the operation lever and an MR sensor interlocked with the operation of the magnet. The method of claim 26,
The mechanical extraction unit,
And a magnet attached to the actuating lever and a reed switch interlocked with the operation of the magnet.

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