KR101645182B1 - Water purifier - Google Patents

Abstract

The water purifier of the present invention comprises: an integer portion having at least one filter for purifying water; An outflow section through which water is discharged; A water tank in which water is contained; A sterilizing unit in which water is sterilized; A sterilizing unit inlet channel connecting the purified water section and the sterilizing unit; A sterilizing unit outflow channel connecting the sterilizing unit and the water outlet; A water tank outlet channel connecting the water tank and the sterilizing unit inlet flow channel; A water tank inlet flow path connecting the sterilizing unit outlet flow path and the water tank; And an outlet flow regulating valve which is installed in the sterilizing unit outflow channel and flows the water passing through the sterilizing unit to the outflow section or flows into the water tank receiving channel, All can be sterilized in the sterilizing unit, and the sterilizing performance by the sterilizing unit is high.

Description

Water purifier

The present invention relates to a water purifier, and more particularly to a water purifier having a sterilizing unit for sterilizing water.

In general, a water purifier is a device that filters water by filtering it with physical and chemical methods to remove impurities.

The water purifier can be classified into natural filtration type, direct filtration type, ion exchange water type, distillation type, reverse osmosis type, and the like, if it is classified according to the water purification method.

The water purifier has a direct type that is directly connected to a faucet to which a constant is supplied if classified according to the type, and a storage type that stores purified water purified through a filter in a water tank.

The water purifier can be provided with a sterilizing unit such as an ultraviolet lamp on a water tank containing water, and ultraviolet rays irradiated from the ultraviolet lamp can sterilize water in the water tank.

 The water purifier according to the related art has a disadvantage in that when the sterilizing unit is installed in the water tank and the water purified in the purified water does not pass through the water tank and goes out to the outside, sterilization by the sterilizing unit can not be performed, There is a problem that can not be done.

The present invention relates to a water purification apparatus comprising: an integer portion having at least one filter for purifying water; An outflow section through which water is discharged; A water tank in which water is contained; A sterilizing unit in which water is sterilized; A sterilizing unit inlet flow path connecting the purified water portion and the sterilizing unit; A sterilizing unit outflow channel connecting the sterilizing unit and the water outlet; A water tank outlet channel connecting the water tank and the sterilizing unit inlet flow channel; A water tank inlet line connecting the sterilizing unit outflow channel and the water tank; And an outflow channel regulating valve installed in the sterilizing unit outflow channel to flow the water that has passed through the sterilizing unit to the outflow unit or to flow into the water tank receiving channel.

And an inlet flow control valve installed in the sterilizing unit inlet flow passage to receive water in the water tank outlet flow passage or water discharged from the purified water portion into the sterilizing unit.

And a pump installed between the inlet flow control valve and the sterilizing unit among the sterilization unit inlet flow channels.

The water flow control valve may be controlled in a circulation mode in which water that has passed through the sterilization unit is taken in the water tank inlet flow channel in the sterilization mode, Mode.

The water purifier may further include a reverse rotation pump installed in the sterilizing unit inlet flow path and pumping water in a direction opposite to the pump.

 The outflow channel control valve may be connected to a drain channel for discharging water to the outside.

And the outflow channel control valve may be controlled to a drain mode in which the water in the outflow section is allowed to flow out to the drainage channel in the drain mode.

 The at least one filter may include a reverse osmosis membrane filter, and the reverse osmosis membrane filter may be connected to a filter drainage flow path formed with a venturi. And can be connected to a venturi connection channel guided to the venturi.

The reverse rotation pump is a flow rate variable pump, and the reverse rotation pump is capable of varying a flow rate upon driving.

 The pump is a flow rate variable pump, and the pump can vary the flow rate at the time of driving.

The pump can vary the flow rate step by step.

The pump can be stopped after increasing the flow rate step by step.

The pump can increase the flow rate step by step and then gradually decrease it.

 The pump can increase and decrease the flow rate.

The pump can linearly increase the flow rate and decrease it linearly.

The pump may be driven and stopped a plurality of times periodically while the sterilizing unit is on.

The present invention is advantageous in that both of the water supplied by the water purifier and the water in the water tank and the water exiting to the water outlet can be sterilized in the sterilizing unit and the sterilizing performance by the sterilizing unit is high.

 In addition, the water in the outflow channel of the sterilizing unit and the water in the outflow portion can be recovered and sterilized in a water tank with a simple structure, and clean water can be supplied.

In addition, the water in the sterilizing unit outflow channel and the water in the outflow portion can be drained with a simple structure, and the supply of contaminated water can be minimized.

1 is a view showing a first embodiment of a water purifier according to the present invention,
FIG. 2 is a view showing a pump of the first embodiment of the water purifier according to the present invention,
FIG. 3 is a graph comparing the bacterial concentration of the water tank according to the pump flow rate according to the first embodiment of the water purifier according to the present invention to the bacterial concentration at the time of sterilization, the concentration of bacteria at the low flow rate and the concentration of bacteria at the high flow rate limit,
4 is a view showing the water flow at the time of recovering the residual water in the second embodiment of the water purifier according to the present invention,
FIG. 5 is a view showing the water flow during the water drainage of the third embodiment of the water purifier according to the present invention,
Fig. 6 is a view showing the water flow during the water drainage of the fourth embodiment of the water purifier according to the present invention.

1 is a view showing a first embodiment of a water purifier according to the present invention.

As shown in FIG. 1, the water purifier according to the present embodiment includes a water purifying unit 1 for purifying water, a water outlet 10 for water to be taken out, A water tank 20 in which water is contained; And a sterilizing unit 30 in which water is sterilized.

The water purification unit 1 may have at least one filter 2, 3, and 4 for purifying water.

The integer part 1 preferably includes a plurality of filters 2, 3 and 4 that are purified while water flows sequentially and the plurality of filters 2, 3, and 4 preferably include at least two filters The water can be connected in a phased manner.

The plurality of filters 2, 3, and 4 may include a sediment filter, a line carbon filter, a reverse osmosis membrame filter, an ultrafiltration membrane filter, May be configured in various combinations.

Any one of the filters 2, 3 and 4 may be composed of a sediment filter or a pre-carbon filter, The other filter 3 through which purified water is passed may be constituted by a reverse osmosis membrane filter or an ultrafiltration membrane filter, Another filter 4 through which the purified water passes may be a post carbon filter.

In the integer part 1, any one of the filters 2, 3 and 4 and the other filter 3 can be connected to the filter connecting flow path 5 and the plurality of filters 2 The other filter 3 and the other filter 4 may be connected to each other through the other filter connecting flow path 6.

The purified water portion 1 may be connected to a raw water supply flow path 7 for guiding water to the purified water portion 1.

The raw water supply flow path 7 guides the water supplied from the outside such as tap water to be purified in the purified water portion 1 and can be connected to any one of the plurality of filters 2, have.

The water outlet portion 10 may include a cock or an outlet valve for allowing the water of the water purifier to flow out to the outside.

When the water outlet 10 includes a cock, the cock may be provided with an outflow lever operated by the user to dispense water, and when the outflow valve 10 includes an outflow valve, the outflow valve may comprise a solenoid valve capable of interrupting the water have.

The water tank 20 is a water tank in which water purified in the purified water portion 1 or water not purified in the purified water portion 1 can be contained.

The water tank 20 may have a water inlet portion 22 at one side thereof and a water outlet portion 24 at which the water of the water tank 20 can be formed at the other side thereof. have.

When the water tank 20 is detachably installed in the water purifier, the water tank 20 can store water separately from the water supplied through the purified water portion 1 and can store water supplied through the water inlet portion 22.

When the water tank 20 is fixedly installed to the water purifier, the water tank 20 can hold the water to be supplied through the water inlet portion 22,

The water tank 20 can be formed at the lower part of the water tank 20 with the water inlet part 22 and the water outlet part 24.

 The sterilizing unit 30 may include an ultraviolet lamp or an ultraviolet light sterilizer capable of sterilizing water by irradiating ultraviolet rays to the water.

The sterilizing unit 30 may include an electrolytic sterilizer for electrolyzing water to change the chlorine ion in the water to hypochlorous acid ion, which is a sterilizing component.

The sterilizing unit 30 may include a housing 36 in which a water inlet 32 through which water is taken and a water outlet 34 through which water is taken out are formed in the housing 36. An ultraviolet sterilizer or an electrolytic sterilizer Can be installed.

The water purifier may include a water passage 40 through which water passes and a pump 50 for pumping water.

The water channel 40 can be configured such that the water of the purified water portion 1 can be discharged to the water outlet 10 or can be obtained from the water tank 20 after passing through the sterilizing unit 30, The water can be discharged to the water outlet 10 or can be taken to the water tank 20 after passing through the water tank 30.

The water flow path 40 is formed by a water outflow channel in which the water of the purified water portion 1 passes through the sterilizing unit 30 and then flows out to the water outlet portion 10 and a water outflow channel in which water in the purified water portion 1 passes through the sterilizing unit 30 The water tank 20 is connected to the water tank 20 via the water sterilization unit 30 and the water outlet 20 is connected to the water outlet 20, The water in the water tank 20 can be passed through the sterilizing unit 30 and then taken to the water tank 20.

The water passage 40 is provided with a sterilizing unit inlet flow passages 41, 42 and 43 for connecting the purified water portion 1 and the sterilizing unit 30 and a sterilizing unit 30 for connecting the sterilizing unit 30 and the water outlet 10, A water tank outflow channel 46 connecting the water tank 20 and the sterilizing unit intake flow channels 41, 42 and 43 and a sterilizing unit outflow channel 44 And a water tank intake passage 47 for connecting the water tank 20 and the water tank 20.

The water purifier is installed in the sterilizing unit outflow passages 44 and 45 so that the water passing through the sterilizing unit 30 flows into the water outlet 10 or flows into the water tank inlet channel 47 ).

The outflow control valve 60 has a circulation mode in which water that has passed through the sterilizing unit 30 is received by the water tank inlet flow path and an outflow mode in which water that has passed through the sterilizing unit 30 is taken out to the water outlet 10 Lt; / RTI >

The outflow channel control valve 60 can be controlled in a circulation mode in which the water passing through the sterilizing unit 30 in the sterilization mode is taken into the water tank inlet channel. The outflow channel control valve 60 can be controlled in a circulation mode in which water having passed through the sterilizing unit 30 is received in the water tank intake channel in the water saving mode. The outflow channel control valve 60 can be controlled to an outflow mode in which the water that has passed through the sterilizing unit 30 in the outgoing mode is taken out to the outflow section 10. [

 The water purifier is installed in the sterilizing unit intake flow paths 41, 42 and 43 to supply the water in the water tank outflow passage 46 or the water discharged from the purified water portion 1 to the sterilizing unit 30 70).

The inlet flow control valve 70 may have a circulation mode for flowing the water in the water tank 2 to the sterilization unit 30 and a non-circulation mode for flowing the water that has passed through the purified water section 1 to the sterilization unit 30 have.

The inlet flow control valve 70 can be controlled in a circulation mode in which the water in the water tank 2 flows to the sterilizing unit 30 in the sterilizing mode. The intake flow control valve 70 can be controlled in a non-circulating mode in which water passing through the purified water portion 1 in the water-saving mode flows to the sterilizing unit 30. [ The intake flow control valve 70 is provided with a circulation mode for flowing the water in the water tank 2 to the sterilization unit 30 in an outgoing mode or a non-circulation mode for flowing water passing through the water purification unit 1 to the sterilization unit 30 Lt; / RTI >

The pump 50 can be driven in the sterilization mode, in the water-saving mode, and in the water-out mode.

The pump 50 may be installed between the inlet flow control valve 70 and the sterilizing unit 30 of the sterilizing unit inlet flow paths 41, 42 and 43 or may be provided between the sterilizing unit outlet flow paths 44 and 45 Unit 30 and the outflow channel regulating valve 60, as shown in Fig.

The sterilizing unit intake flow paths 41, 42 and 43 include a purified water outlet flow passage 41 for connecting the purified water portion 1 and the intake flow path control valve 70 and a water outlet flow passage 41 for connecting the water inlet flow control valve 70 and the pump 50 And a pump outflow channel 43 for connecting the pump 50 and the water inlet 32 of the sterilizing unit 30 to each other.

The sterilizing unit outflow passages 44 and 45 include an outflow channel regulating valve intake flow passage 44 connecting the water outlet 34 of the sterilizing unit 30 and the outflow channel regulating valve 60 and an outflow channel regulating valve 60 And an outflow channel control valve outflow channel 45 connecting the outflow channel 10 and the outflow channel 10.

The water tank outflow channel 46 may connect the water outlet portion 24 of the water tank 20 and the intake flow control valve 70.

The water tank intake flow path 47 can connect the water flow regulating valve 60 and the water intake portion 22 of the water tank 20.

FIG. 2 is a view of the water purifier according to the first embodiment of the present invention in which the flow rate of the water is varied; FIG. 3 is a graph showing the relationship between the flow rate , The concentration of bacteria at low flow rate and the concentration of bacteria at high flow rate.

The pump 50 may be constituted by a constant speed pump for pumping water with a constant flow rate of water or a variable flow rate pump for pumping water so that the flow rate of water is variable.

When the pump 50 is a variable-flow-rate pump, the flow rate at the time of driving can be varied. The pump 50 may vary the flow rate when it is in the water storage mode and the sterilization mode, and may not vary the flow rate when it is in the water discharge mode. That is, when the water is supplied to the water tank 20 and the water in the water tank 20 is circulated and sterilized, the flow rate of the pump 50 can be varied. When the water is discharged to the water outlet 10, The flow rate of the fluid 50 can be made constant.

The water in the water purification unit 1 or the water in the water tank 20 can be sequentially supplied to the water tank 20 after passing through the pump 50 and the sterilizing unit 30 in the water storage mode and the sterilization mode, The flow pattern Y in the water tank 20 may be different from the flow pattern X in the water tank 20 when the flow velocity is slow and the sterilized water in the sterilization unit 30 may flow into the water tank 20, The entirety of the water tank 20 can be sterilized by spreading the water in the water tank 20 widely, and the total sterilization time for sterilizing the entire water tank 20 can be shortened.

 The pump 50 can be stopped after increasing the flow rate, increasing and decreasing the flow rate, and then stopping. The water tank 20 can be sterilized while the water is uniformly spread throughout the inside thereof while the flow rate is increased. The water tank 20 can be sterilized while water is uniformly spread throughout the inside thereof while the flow velocity is reduced.

The pump 50 can vary the flow rate step by step. The pump 50 can be stopped after increasing the flow rate step by step. The pump 50 can be stepwise reduced after stepping up the flow rate and stopped after stepping down. The water tank 20 can be sterilized by spreading water evenly throughout the inside of the water tank 20 while the flow rate is gradually increased. The water tank 20 can be sterilized by spreading water evenly throughout the inside of the water tank while the flow velocity is gradually reduced.

The pump 50 can linearly vary the flow rate. The pump 50 can increase the flow velocity ?? linearly and then stop. The pump 50 can linearly increase the flow rate, then linearly reduce it, and linearly reduce it and then stop. The water tank 20 can be sterilized by spreading water evenly throughout the inside thereof while the flow rate is linearly increased. The water tank 20 can be sterilized while water is uniformly spread throughout the inside thereof while the flow velocity is linearly reduced.

 The pump 50 can be continuously driven while the sterilizing unit 30 is on and can be stopped when the sterilizing unit 20 is off and can be driven and stopped a plurality of times periodically while the sterilizing unit 30 is on . In the sterilization mode, the sterilization unit 30 can be turned on continuously, and the pump 50 can be periodically driven and stopped while the sterilization unit 30 is on. For example, while the sterilization unit 30 is warmed for 10 minutes, the pump 50 may be idle for 1 minute after being driven for 4 minutes, and may be idle for 1 minute after being driven again for 4 minutes. The water flow pattern in the water tank 20 can be led to the high speed pattern and the low speed pattern by repeating the driving and stopping of the pump 50 and the number of times of repeated driving and stopping of the pump 50 ) Can repeat the high speed pattern and the low speed pattern. On the other hand, the pump 50 can change the flow rate stepwise or linearly as described above during the driving operation.

FIG. 3 (a) is a view showing the internal bacterial concentration of the water tank before sterilization, FIG. 3 (b) is a view showing the internal bacterial concentration of the water tank at the time of low flow sterilization, FIG. 3 (d) is a view showing the concentration of internal bacteria at the time of variable flow sterilization in the water tank.

The water tank 20 may have a high bacterial concentration as a whole as shown in Figure 3 (a) before sterilization of the water tank 20. [

On the other hand, when the flow rate of the pump 50 is low, that is, when the flow rate of the pump 50 is low, the water tank 20 is divided into a plurality of areas A ) (B), the bacterial concentration may be high.

3 (c), when the flow rate of the pump 50 is fast, that is, when the flow rate of the pump 50 is high, the water tank 20 is connected to the water tank 20 ) In the inner lower region (C).

When the flow rate of the pump 50 is variable, that is, when the flow rate of the pump 50 is varied, the flow rate of the pump 40 is slow in the water tank 20 as shown in FIG. 2 Flow circulation pattern X when the flow velocity of the pump 40 is high and the high flow rate circulation pattern Y when the flow velocity of the pump 40 is high can be respectively formed and various circulation patterns can be formed as the flow velocity is changed stepwise or linearly 3 (d), the bacterial concentration may be low over the entire area of the water tank 20, and the water tank 20 may be uniformly sterilized so that the bacterial concentration in the specific area is not high .

Hereinafter, the operation of the present invention will be described.

First, in the water storage mode, the sterilizing unit 30 and the pump 50 can be driven, the outflow channel regulating valve 60 can be controlled in the circulation mode, the intake flow regulating valve 70 can be controlled in the non- .

The water in the raw water feed passage 7 is purified while sequentially passing through the plurality of filters 2, 3 and 4 and then passes through the intake flow control valve 70 and the pump 50 and is passed through the sterilizing unit 30, Lt; / RTI > The water can be sterilized while passing through the sterilizing unit 30, and then can be introduced into the water tank 20 after passing through the outflow channel regulating valve 60. That is, water in the water tank 20 can be purified by the plurality of filters 2, 3, and 4 and sterilized by the sterilizing unit 30.

In the water storage mode, the water purifier can vary the flow rate by variable control of the pump 50, and the water tank 20 can be sterilized evenly throughout the water purifier.

The sterilizing unit 30 and the pump 50 can be driven and the outlet flow regulating valve 60 can be controlled in the circulation mode and the inlet flow regulating valve 70 can be controlled in the circulation mode have.

The water in the water tank 20 can pass through the sterilizing unit 30 after passing through the inlet flow control valve 70 and the pump 50 in order. The water can be sterilized while passing through the sterilizing unit 30, and then can be introduced into the water tank 20 after passing through the outflow channel regulating valve 60. That is, the water in the water tank 20 is circulated through the water intake flow control valve 70, the pump 50, the sterilizing unit 30, the water flow regulating valve 60 and the water tank 20, ), Sterilized water is continuously contained in the sterilizing unit (30).

In the sterilizing mode, the water purifier can vary the flow rate by variable control of the pump 50, and the water tank 20 can be uniformly sterilized in its entirety.

In the heading mode, the sterilizing unit 30 and the pump 50 can be driven, the outflow channel regulating valve 60 can be controlled in the outbound mode, and the incoming channel regulating valve 70 can be operated in the circulation mode or the non- Lt; / RTI >

When the water supply flow control valve 70 is controlled in the non-recirculation mode in the heading mode, the water in the water supply water passage 7 is purified while the water in the raw water supply flow passage 7 sequentially passes through the plurality of filters 2, 3 and 4, Passes through the flow regulating valve 70 and the pump 50, and can pass through the sterilizing unit 30. The water can be sterilized while passing through the sterilizing unit 30 and then can be discharged to the water outlet 10 after passing through the water outlet flow control valve 60. The water purifier is purified in the plurality of filters 2, 3, 4 through the water outlet 10 and can dispense sterilized water in the sterilizing unit 30. [

The water purifier is operated in the water sterilization unit 30 after the water in the water tank 20 is sequentially passed through the water intake flow control valve 70 and the pump 50 when the water intake flow control valve 70 is controlled in the circulation mode, Lt; / RTI > The water can be sterilized while passing through the sterilizing unit 30 and then can be discharged to the water outlet 10 after passing through the water outlet flow control valve 60. The water purifier can dispense sterilized water in the sterilizing unit (30) through the water outlet (10).

That is, when the water supply flow control valve 70 is controlled in the circulation mode, the water in the water tank 20 can be discharged through the water outlet 10 after the water in the water tank 20 is sterilized, Is controlled to the non-circulating mode, the water in the raw water feed passage 7 can be purified and sterilized, and then can be taken out through the water outlet 10.

On the other hand, the water purifier is provided with a water level sensor (not shown) capable of sensing the water level of the water tank 20, and when the water level of the water tank 20 is high in the water- Circulation mode and the water level of the water tank 20 is low in the outflow mode, the intake flow control valve 70 can be controlled in the non-circulation mode.

On the other hand, the water purifier can perform automatic sterilization control for sterilizing the water tank 20 automatically. The water purifier can perform the automatic sterilization control when the automatic water sterilization condition such as the setting time of the water discharge time when the water outlet 10 does not go out water becomes the set time or the water purifier unused time becomes the set time. The water purifier can perform automatic sterilization control at set time intervals.

In the automatic sterilization control, the water purifier is turned on at the sterilizing unit 30, and the flow rate of the pump 50 can be variably controlled. The water purifier performs a flow rate variable sterilization step for variably controlling the flow rate of the pump 50 installed between the water tank 20 and the sterilizing unit 30 when the sterilizing unit 30 for sterilizing the water in the water tank 20 is turned on can do.

In the automatic sterilization control, the water purifier can be subjected to a sterilization stop step in which the sterilization unit 30 is turned off and the pump 50 is stopped, after the sterilization setting time has elapsed after the flow rate sterilization step is started.

When the sterilization stop set time elapses after the sterilizing unit 30 is turned off and the pump 50 is stopped, the sterilizing unit 30 is turned on again, and the flow rate variable sterilization step in which the pump 50 is variably controlled is performed And the water purifier includes a flow variable sterilizing step in which the flow rate of the pump 50 is variable while the sterilizing unit 30 is on and a sterilizing stopping step in which the pump 50 is stopped while the sterilizing unit 30 is off . ≪ / RTI >

Meanwhile, the variable flow rate sterilizing step may be performed such that the sterilizing unit 30 increases the flow rate of the on-time pump 50 stepwise and then stops the flow, or gradually increases the flow rate of the pump 50, Can be linearly increased and then linearly reduced. The variable flow rate sterilization step can be performed a plurality of times by gradually increasing the flow rate of the pump 50 during the sterilization setting time and by gradually increasing the flow rate of the pump 50 It is possible to perform the process of linearly increasing the flow rate of the pump 50 and linearly decreasing the flow rate of the pump 50 a plurality of times. That is, the pump 50 can be driven and stopped a plurality of times while the sterilizing unit 30 is on, and the flow rate can be varied during the driving.

4 is a view showing the water flow at the time of recovering the residual water in the second embodiment of the water purifier according to the present invention.

4, the water purifier according to the present embodiment includes: And a reverse rotation pump 80 installed in the sterilizing unit intake flow paths 41, 42 and 43 and pumping water in the direction opposite to the pump 50. The other The configuration and operation are the same as or similar to the first embodiment of the present invention, and thus the same reference numerals are used and a detailed description thereof will be omitted.

When the pump 50 of the first embodiment of the present invention is constituted by a bidirectional pump for pumping water in both directions, the water in the water outlet 10 after the water is discharged through the water outlet 10 and the water in the sterilizing unit outlet channel 44 ) 45 can be recovered to the water tank 20.

4, when a reverse rotation pump 80 capable of pumping water in a direction opposite to the pumping direction of the pump 50 is installed separately, the water purifier is provided with a water outlet portion 10 and the water in the sterilizing unit outflow passages 44, 45 to the water tank 20 can be recovered.

The reverse rotation pump 80 is installed at a position where water in the water outlet 10 and water in the sterilizing unit outflow passages 44 and 45 can be recovered to the water tank 20 after passing through the sterilizing unit 30 And it is preferable that the sterilizing unit is installed in the sterilizing unit intake flow passages 41, 42, 43.

 The reverse rotation pump 80 may be installed together with the pump 50 in the pump outflow channel 43.

The reverse rotation pump 80 is installed in a bypass flow passage (not shown) connected to the sterilizing unit intake flow passages 41, 42 and 43 so that water can bypass the pump 50, 41) 42 and 43 may be provided with a check valve (not shown) for preventing the water that has passed through the sterilizing unit 30 from flowing to the pump 50 when the reverse rotation pump 80 is driven.

The reverse rotation pump 80 may be a variable speed pump such as the pump 50, and the flow rate of the pump 50 may vary during its operation.

Hereinafter, the reverse rotation pump 80 will be described as an example in which the pump 50 is installed together with the pump 50 in the pump outflow channel 43.

The pump outflow channel 43 includes a pump connection passage 43a for connecting the pump 50 and the reverse rotation pump 80 to each other and a reverse rotation pump sterilizing unit 43 for connecting the reverse rotation pump 80 and the sterilizing unit 30, And may include a connection passage 43b. The water is flowed in the order of the pump 50 and the pump connection passage 43a, the reverse rotation pump 80 and the reverse rotation pump-sterilization unit connection passage 43b, and then the sterilization unit 30 ). ≪ / RTI > The water in the sterilizing unit 30 is flowed in the order of the pump-sterilizing unit connection passage 43b, the reverse rotation pump 80, the pump connection passage 43a, and the pump 50 in operation of the reverse rotation pump 80 .

The pump 50 and the reverse rotation pump 80 do not operate the reverse rotation pump 80 when the pump 50 is driven and the pump 50 is not driven when the reverse rotation pump 80 is driven.

The water purifier can be controlled in the same manner as the first embodiment of the present invention while the sterilizing unit 30, the pump 50, the water flow regulating valve 60 and the water flow regulating valve 70 can be controlled in the outgoing mode, When the water outflow through the water outlet 10 is completed, the water can be controlled to the residual water recovery mode in which the remaining water is recovered.

The water in the sterilizing unit outflow passages 44 and 45 and the water in the outflow section 10 can not be discharged through the outflow section 10 and the sterilizing unit outflow passages 44 and 45 and the water- If the water remains in the sterilizing unit outflow passages 44 and 45 and the water outlet 10 for a long time, the water is contaminated by the increase of bacteria in the water, Once out, the user will drink contaminated water.

On the other hand, when the water purifier is in the residual water recovery mode after the completion of the outgoing mode, the water in the sterilizing unit outflow passages 44 and 45 and the water in the water outlet 10 are collected and contained in the water tank 20, The user is able to drink clean water if the user performs the outgoing mode again.

In detail, in the remainder recovery mode, the sterilization unit 30 can be driven in the remainder recovery mode, the pump 50 can be stopped, the outlet flow regulating valve 60 can be controlled in the outflow mode, The inlet flow control valve 70 can be controlled in the circulation mode and the reverse rotation pump 80 can be driven to pump water in the direction opposite to the pumping direction of the pump 50. [

The water in the sterilizing unit outflow passages 44 and 45 and the water in the outflow section 10 flow in the opposite direction to the outflow mode while passing through the sterilizing unit 30, 70, and is then introduced into the water tank 20.

The water in the sterilizing unit outflow passages 44 and 45 and the water in the outflow section 10 are sterilized while passing through the sterilizing unit 30 and then stored in the water tank 20, ) Is filled with sterilized water.

After the outgoing mode and the residual water recovery mode are sequentially performed as described above, when the user again performs the outgoing mode, sterilized water is sent to the water outlet 10 through the post sterilization unit 30 purified in the water purification unit 10 , The water sterilized by the sterilization unit (30) is discharged from the water tank (20), and the user does not drink the contaminated water.

Fig. 5 is a view showing the water flow during water draining of the third embodiment of the water purifier according to the present invention.

As shown in FIG. 5, the water purifier according to the present embodiment includes: The drainage flow control valve 60 can be connected to the drainage flow control valve 60 and the drainage flow control valve 60 can be connected to the drainage flow passage 62 in the residual water discharge mode And the other components and functions of the outflow channel regulating valve 60 are the same as or similar to those of the first embodiment of the present invention, so that the same reference numerals are used and a detailed description thereof will be omitted.

It is preferable that the drainage flow path 62 is provided so as to be lower in height than the water outlet portion 10 so that water in the water outlet portion 10 is naturally drained through the drainage flow path 62.

The outflow control valve 60 has an outgoing mode in which water that has passed through the sterilizing unit 30 flows to the outflow section 10 and an outflow mode in which water that has passed through the sterilizing unit 30 flows into the water tank 20 A circulation mode, and a drain mode in which water in the water outlet 10 is drained to the drainage passage 62.

The outflow control valve 60 is capable of performing one outward valve in the outgoing mode, the circulation mode and the drainage mode.

The outflow channel control valve 60 can perform an outgoing mode, a circulation mode, and a drain mode while a plurality of valves are turned on / off. The outflow channel control valve 60 is provided in the outflow channel control valve outflow channel 45 and includes a first outflow channel control valve for interrupting the water flowing into the outgoing channel 10, A second outflow channel regulating valve for interrupting the water flowing into the water tank 20 and a third outflow channel regulating valve provided in the drainage channel 62 for interrupting the water flowing into the drainage channel 62 It is possible.

The water purifier can be controlled in the same manner as the first embodiment of the present invention while the sterilizing unit 30, the pump 50, the water flow regulating valve 60 and the water flow regulating valve 70 can be controlled in the outgoing mode, When the water outflow through the water outlet 10 is completed, it can be controlled to a drain mode in which the remaining water is drained.

  The water in the outflow channel control valve outflow channel 45 and the water in the outflow channel 10 pass through the outflow channel control valve 60 and then through the drain channel 62 If the user performs the watering mode again after the drainage mode is performed, the user can drink clean water.

To describe the drainage mode in detail, the sterilization unit 30 in the drainage mode can be stopped, the pump 50 can be stopped, and the flowrate control valve 60 can be controlled in the drainage mode.

In the drain mode, the water in the outflow channel regulating valve outflow channel 45 and the water in the outflow channel 10 are drained to the drain channel 62 after passing through the outflow channel regulating valve 60.

When the user performs the outgoing mode again after the outgoing mode and the drain mode are sequentially performed as described above, sterilized water is sent to the outgoing unit 10 from the post-sterilization unit 30 purified in the purified water unit 10, After the water is discharged from the water tank 20, sterilized water is discharged from the sterilization unit 30, and the user does not drink the contaminated water.

Fig. 6 is a view showing the water flow during the water drainage of the fourth embodiment of the water purifier according to the present invention.

The purifier according to the present embodiment is characterized in that at least one of the filters 2, 3 and 4 can comprise an osmosis membrane filter 3 and the reverse osmosis membrane filter 3 A filter drainage passage 92 in which the venturi 90 is formed can be connected. The sterilizing unit outflow channels 44 and 45 and the venturi 90 may be connected to the venturi connection channel 100 in which water in the sterilizing unit outflow passages 44 and 45 is guided to the venturi 90. The water purifier of this embodiment is similar to or similar to the first embodiment of the present invention except for the reverse osmosis membrane filter 3, the filter drainage flow path 92 and the venturi connection flow path 100. Therefore, A detailed description thereof will be omitted.

 The water purifier 1 may be provided with a water supply valve 8 in a filter connection channel 5 for guiding water to the reverse osmosis membrane filter 3 and a filter connection channel 5 may be provided before the reverse osmosis membrane filter 3 And a filter 4 for purifying water after the water supply valve 8 and the reverse osmosis membrane filter 3 are connected to each other through a water supply valve 5a for connecting the filter 2 and the water supply valve 8, And a water supply valve outlet flow path 5b connecting the water supply valve 5a and the water supply valve 5b.

The filter drainage flow path 92 may be connected at one end to the reverse osmosis membrane filter 3 and the other end may be located at the outside of the water purifier.

The venturi connection passage 100 may be connected to one of the outflow passage regulating valve intake flow passage 44, the outflow passage regulating valve outflow passage 45, the outflow passage regulating valve 60 and the water outlet 10.

When the venturi connection passage 100 is connected to the outflow channel regulating valve intake flow passage 44, the outflow channel regulating valve 60 controls the flow of the water in the outflow channel regulating valve outflow channel 45 and the water Can be controlled in the outflow mode so as to be drained through the outflow channel control valve (60).

When the venturi connection passage 100 is connected to the outflow channel regulating valve outflow channel 45 or the outgoing section 10, the outflow channel regulating valve 60 is connected to the water outlet port 45 of the outflow channel regulating valve outflow channel 45 in the drain mode The water in the portion 10 can be controlled in the circulation mode so as to be drained through the outflow channel regulating valve 60.

When the venturi connecting passage 100 is connected to the outflow channel regulating valve 60, the outflow channel regulating valve 60 controls the flow of the water in the outflow channel regulating valve outflow channel 45 and the water in the outflow channel 10, It can be controlled in the drain mode as in the third embodiment of the present invention so as to be drained through the control valve 60. [

1: integer part 2, 3, 4: filter
10: water outlet 20: water tank
30: sterilization unit 41, 42, 43:
44, 45: Sterilization unit outflow channel 46: Water tank outflow channel
47: Water tank intake 50: Pump
60: an outflow channel control valve 62: a drainage channel
70: inlet flow control valve 80: reverse rotation pump
90: Venturi 92: Filter drainage channel

Claims (16)

An integer part having at least one filter for purifying water;
An outflow section through which water is discharged;
A water tank in which water is contained;
A sterilizing unit in which water is sterilized;
A sterilizing unit inlet flow path connecting the purified water portion and the sterilizing unit;
A sterilizing unit outflow channel connecting the sterilizing unit and the water outlet;
A water tank outlet channel connecting one side of the lower portion of the water tank and the water inlet channel of the sterilizing unit;
A water tank inlet channel connecting the sterilizing unit outflow channel and the other side of the lower portion of the water tank;
An outflow channel regulating valve installed in the sterilizing unit outflow channel to flow water passing through the sterilizing unit to the outflow unit or to flow into the water tank receiving channel;
An inlet flow control valve installed in the sterilizing unit inlet flow passage for receiving water in the water tank outlet flow passage or water discharged from the purified water portion into the sterilizing unit;
And a pump installed between the inlet flow control valve and the sterilizing unit among the sterilization unit inlet flow channels,
Wherein the water flow control valve is controlled to a circulation mode in which water passing through the sterilization unit is received by the water tank inlet flow channel in the sterilization mode,
Wherein the inlet flow control valve is controlled in a circulation mode to flow water in the water tank to the sterilization unit in sterilization mode,
Wherein the pump varies the flow rate in the sterilization mode with a variable flow rate pump. delete delete The method according to claim 1,
The outflow channel control valve is controlled to an outflow mode in which water that has passed through the sterilizing unit is allowed to flow out to the outflow section in the outbound mode
Wherein the inlet flow control valve is controlled in a non-circulating mode in which water passing through the purified water portion flows to the sterilizing unit in a water saving mode. The method according to claim 1,
Wherein the water flow path control valve is connected to a drain water path for discharging water to the outside. 6. The method of claim 5,
And the outflow channel control valve is controlled to a drain mode in which water in the outflow section is allowed to flow out to the drainage channel in the residual water drain mode. The method according to claim 1,
Wherein the at least one filter comprises an reverse osmosis membrane filter,
The reverse osmosis membrane filter is connected to a filter drainage flow path formed with a venturi,
Wherein the sterilizing unit outflow channel and the venturi are connected to a venturi connection channel through which water in the sterilizing unit outflow channel is guided to the venturi. The method according to claim 1,
Wherein the water purifier further comprises a reverse rotation pump installed in the sterilizing unit inlet flow path and pumping water in a direction opposite to the pump. 9. The method of claim 8,
The reverse rotation pump is a flow rate variable pump,
Wherein the reverse rotation pump varies the flow rate when driven. delete The method according to claim 1,
The pump is a water purifier that changes the flow rate step by step. The method according to claim 1,
Wherein the pump is stopped after increasing the flow rate step by step. The method according to claim 1,
Wherein the pump increases the flow rate step by step and then decreases stepwise. The method according to claim 1,
Wherein the pump increases and decreases the flow rate. The method according to claim 1,
Wherein the pump linearly increases the flow rate and then linearly decreases the flow rate. 16. The method according to any one of claims 1 to 11,
Wherein the pump is driven and stopped a plurality of times periodically while the sterilizing unit is on.

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