CN205133270U - Divide matter water purification system - Google Patents

Abstract

The utility model provides a divide matter water purification system, include: leading processing unit, leading processing unit have leading processing import and leading processing export, purification unit, purification unit have water inlet, drinking water export and the export of concentrated water, and the water inlet links to each other with leading processing export, drinking water water storage unit, drinking water water storage unit have the water inlet of drinking with drink the delivery port, drink the water inlet with drinking water export links to each other, drinks to be connected with water on the delivery port and to chew, concentrated water water storage unit, concentrated water water storage unit have concentrated water inlet and concentrated delivery port, and concentrated water inlet links to each other with the export of concentrated water, with use the wetting system, link to each other with wetting system and concentrated delivery port. According to the utility model discloses a divide matter water purification system collects the concentrated water that purification unit is produced at concentrated water water storage unit to make concentrated water treatment unit and link to each other with the wetting system, make concentrated water discharge again after once using at least, effectively solved the direct problem of discharging of concentrated water.

Description

Sub-prime water cleaning systems

Technical field

The utility model relates to water-treatment technology field, particularly relates to a kind of sub-prime water cleaning systems.

Background technology

Along with growth in the living standard, human consumer also promotes drink drinkable water and water for cleaning quality requirements thereupon, in order to meet the demand of human consumer to quality water, and have developed this sub-prime water cleaning systems, and its diet Water warfare adopts reverse osmosis or nanofiltration.

Existing reverse osmosis membrane water purifier, due to can by filterings such as harmful impurity nearly all in water, heavy metal, bacterium, viruses, so be a kind of comparatively conventional method producing water purification.Reverse osmosis membrane water purifier can produce a large amount of condensed water in the process producing water purification, in general produces 1 part of pure water and can produce about 3 parts of condensed water.

Existing nanofiltration membrane water purifier, the material that the bacterium in water, virus etc. are harmful can be removed, and the part ion that can retain in water, nanofiltration membrane water purifier also can produce certain proportion condensed water in the process producing water purification, in general produces portion and purifies waste water and can produce 1-2 part condensed water.

In the related, condensed water generally can directly be discharged, and this is for the water resources of growing tension, is a kind of waste greatly, and constrains the universal and development of reverse osmosis membrane and nanofiltration membrane water purifier to a certain extent.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.

For this reason, an object of the present utility model be propose a kind of can at utmost to the sub-prime water cleaning systems that water utilizes.

According to a kind of sub-prime water cleaning systems of the present utility model, comprising: preprocessing unit, described preprocessing unit has pre-process import and pre-process outlet; Clean unit, described clean unit has the outlet of water-in, drinking water outlet and condensed water, and described water-in exports with described pre-process and is connected; Tap water water cell, described tap water water cell has drinks water-in and drink water outlet, described in drink water-in and be connected with described drinking water outlet, described in drink and water outlet is connected with water chews; Condensed water water cell, described condensed water water cell has concentrated water-in and concentrated water outlet, and described concentrated water-in exports with described condensed water and is connected; And watering equipment, described watering equipment is connected with described concentrated water outlet.

According to sub-prime water cleaning systems of the present utility model, the condensed water produced by clean unit is collected in condensed water water cell, and condensed water processing unit is connected with watering equipment, condensed water is at least discharged after once using again, efficiently solves the problem that condensed water is directly discharged.

In addition, following additional technical characteristic can also be had according to the sub-prime water cleaning systems of the utility model above-described embodiment:

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the first postpositive disposal unit, drinks between water outlet and described water chews described in described first postpositive disposal unit is located at.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the first emergent branch road, described first emergent branch road comprises the first T-valve and the second T-valve, first port of described first T-valve exports with described condensed water and is connected, second port of described first T-valve is connected with described concentrated water-in, 3rd port of described first T-valve is connected with described pre-process import, first port of described second T-valve is connected with described drinking water outlet, second port of described second T-valve and describedly drink water-in, 3rd port of described second T-valve is chewed with described water and is connected.

According to an example of the present utility model, the described first emergent branch road also comprises the second postpositive disposal unit, and described second postpositive disposal unit is located between the 3rd port of described first T-valve and described pre-process import.

According to an example of the present utility model, described first emergent branch road also comprises the first check valve and the second check valve, described first check valve to be located between the 3rd port of described first T-valve and described pre-process import and to be positioned at the downstream side of described second postpositive disposal unit, described second check valve be located at described first postpositive disposal unit chew with described water between and the 3rd port being positioned at described second T-valve and described water chew the upstream side of the tie point be connected.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the 3rd postpositive disposal unit, and described 3rd postpositive disposal unit is located between described concentrated water outlet and described watering equipment.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the second emergent branch road, described second emergent branch road comprises the 3rd T-valve and four-way valve, first port of described 3rd T-valve exports with described pre-process and is connected, second port of described 3rd T-valve is connected with described water-in, 3rd port of described 3rd T-valve is connected with the first port of described four-way valve, second port of described four-way valve exports with described condensed water and is connected, 3rd port of described four-way valve is connected with described 3rd postpositive disposal unit, 4th port of described four-way valve is connected with the first port of described first T-valve.

According to an example of the present utility model, the described second emergent branch road also comprises the 3rd check valve, and described 3rd check valve is located between described concentrated water outlet and described 3rd postpositive disposal unit.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the 4th check valve, and described 4th check valve is connected with described pre-process import and is positioned at the upstream side of the tie point that described first check valve is connected with described pre-process import.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the heating unit that the water outlet of chewing described water is heated and/or the refrigeration plant freezed to the water outlet that described water is chewed.

According to an example of the present utility model, described preprocessing unit is selected from the cotton filter core of PP, active carbon filter core, ceramic element, ionic adsorption filter core, microfiltration membrane filter core, the combination of any one or they in ultrafiltration membrane filter element or KDF filter core, described clean unit is RO film filter or nano-filtration membrane filter, described tap water water cell and described condensed water water cell are pressure water storage barrel or normal pressure water butt, described watering equipment is selected from washing machine, water-heater, any one in water closet, described first postpositive disposal unit is selected from microorganism filter core and/or silica gel precipitate absorption filter element, described second postpositive disposal unit is selected from ionic adsorption filter core, microfiltration membrane filter core, the combination of any one or they of ultrafiltration membrane filter element or KDF filter core, described 3rd postpositive disposal unit is selected from the combination of any one or they of microorganism filter core, ionic adsorption filter core, ceramic element, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the sub-prime water cleaning systems according to the utility model embodiment.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Below with reference to the accompanying drawings describe in detail according to sub-prime water cleaning systems of the present utility model.

As shown in Figure 1, according to a kind of sub-prime water cleaning systems of the present utility model, comprising: preprocessing unit 1, clean unit 2, tap water water cell 3, condensed water water cell 5 and watering equipment 6.

Specifically, preprocessing unit 1 has pre-process import 101 and pre-process outlet 102.Preprocessing unit 1 can be selected from the combination of any one or they in PP cotton filter core, active carbon filter core, ceramic element, ionic adsorption filter core, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core, so as turbidity such as fallen to the tap water from municipal water supplies, to fall hardness, heavy-metal ion removal and reduce the pre-treatment such as organic content.

Clean unit 2 has water-in 201, drinking water outlet 202 and condensed water outlet 203.Water-in 201 and pre-process export 102 and are connected.Clean unit 2 can be RO film filter or nano-filtration membrane filter.

Tap water water cell 3 has drinks water-in 301 and drinks water outlet 302.Drink water-in 301 to be connected with drinking water outlet 202.Drink and water outlet 302 is connected with water chews 4.Tap water water cell 3 can be pressure water storage barrel or normal pressure water butt.

Condensed water water cell 5 has concentrated water-in 501 and concentrated water outlet 502.Concentrated water-in 501 exports 203 with condensed water and is connected.Condensed water water cell 5 can be pressure water storage barrel or normal pressure water butt.

Such as the watering equipment 6 of washing machine, water-heater, water closet etc. is connected with concentrated water outlet 502.

According to sub-prime water cleaning systems of the present utility model, the condensed water produced by clean unit is collected in condensed water water cell, and condensed water processing unit is connected with watering equipment, condensed water is at least discharged after once using again, efficiently solves condensed water and directly discharge and the problem of water resource waste that causes.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the first postpositive disposal unit 7, first postpositive disposal unit 7 and is located at and drinks water outlet 302 and water is chewed between 4.First postpositive disposal unit 7 is selected from microorganism filter core and/or silica gel precipitate absorption filter element, for the issuable microorganism of filtering tap water water cell 3, and, when tap water water cell 3 adopts pressure water storage barrel, the silica gel content that first postpositive disposal unit 7 may be separated out for the silica gel air bag in filtering pressure water storage barrel, to improve drinking water safety, improve tap water mouthfeel.

According to a concrete example of the present utility model, described sub-prime water cleaning systems also comprises the first emergent branch road.Described first emergent branch road comprises the first T-valve 8 and the second T-valve 9.First port 801 and the condensed water of the first T-valve 8 export 203 and are connected, and the second port 802 of the first T-valve 8 is connected with concentrated water-in 501, and the 3rd port 803 of the first T-valve 8 is connected with pre-process import 101.First port 901 of the second T-valve 9 is connected with drinking water outlet 202, the second port 902 of the second T-valve 9 with drink water-in 301 and be connected, the 3rd port 903 of the second T-valve 9 is chewed 4 with water and is connected.

That is, in normal operation, first port 801 of the first T-valve 8 and the second port 802 of the first T-valve 8 often opens and the 3rd port 803 of the first T-valve 8 is normally closed, the first port 901 of the second T-valve 9 and the second port 902 of the second T-valve 9 often opens and the 3rd port 903 of the second T-valve 9 is normally closed.

When condensed water water cell 5 is for full and tap water water cell 3 be sky, and user is when only having a request of drinking water water, 3rd port 803 of the first T-valve 8 is opened and is communicated with the first port 801 of the first T-valve 8, and disconnect the second port 802 of the first T-valve 8, make the 3rd port 903 of the second T-valve 9 open simultaneously and be communicated with the first port 901 of the second T-valve 9, and disconnecting the second port 902 of the second T-valve 9.Now, the tap water that clean unit 2 produces chews 4 for user through the 3rd port 903-water of the first port 901-the second T-valve 9 of drinking water outlet 202-the second T-valve 9.The condensed water that clean unit 2 produces processes by entering clean unit 2 after preprocessing unit 1 pre-treatment after confluxing with municipal tap water after the 3rd port 803 of the first port 801-the first T-valve 8 of condensed water outlet the 203-the first T-valve 8 again.

Advantageously, the described first emergent branch road also comprises the second postpositive disposal unit 10, second postpositive disposal unit 10 and is located between the 3rd port 803 of the first T-valve 8 and pre-process import 101.Second postpositive disposal unit 10 is selected from the combination of any one or they of ionic adsorption filter core, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core.This is the calcium ions and magnesium ions that the condensed water produced due to clean unit 2 is enriched in former water, if when the described first emergent branch road starts, then can increase the burden of clean unit 2.And be provided with the second postpositive disposal unit 10, then can reduce the calcium ions and magnesium ions concentration in condensed water, reduce the burden of clean unit 2.

Further, the described first emergent branch road also comprises the first check valve 11 and the second check valve 12.First check valve 11 to be located between the 3rd port 803 of the first T-valve 8 and pre-process import 101 and to be positioned at the downstream side of the second postpositive disposal unit 10, to prevent municipal tap water to the impact of the second postpositive disposal unit 10.Second check valve 12 is located at the first postpositive disposal unit 7 and water and chews between 4 and the 3rd port 903 being positioned at the second T-valve 9 and water chew the upstream side of the tie point that 4 are connected, the impact to the first postpositive disposal unit 7 when starting to prevent the described first emergent branch road.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the 3rd postpositive disposal unit the 13, three postpositive disposal unit 13 and is located between concentrated water outlet 502 and watering equipment 6.3rd postpositive disposal unit 13 can be selected from the combination of any one or they of microorganism filter core, ionic adsorption filter core, ceramic element, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core, in order to the issuable microorganism of filtering condensed water water cell 5, reduces except the calcium ions and magnesium ions concentration of condensed water stored in condensed water water cell 5 and heavy metal concentration etc.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the second emergent branch road.Described second emergent branch road comprises the 3rd T-valve 14 and four-way valve 15.First port 1401 and the pre-process of the 3rd T-valve 14 export 102 and are connected, second port one 402 of the 3rd T-valve 14 is connected with water-in 201,3rd port one 403 of the 3rd T-valve 14 is connected with the first port 1501 of four-way valve 15, second port one 502 and the condensed water of four-way valve 15 export 203 and are connected, 3rd port one 503 of four-way valve 15 is connected with the 3rd postpositive disposal unit 13, and the 4th port one 504 of four-way valve 15 is connected with the first port 801 of the first T-valve 8.

That is, in normal state, the first port 801 of the first T-valve 8 and the second port 802 of the first T-valve 8 often opens and the 3rd port 803 of the first T-valve 8 is normally closed.First port 901 of the second T-valve 9 and the second port 902 of the second T-valve 9 often opens and the 3rd port 903 of the second T-valve 9 is normally closed.First port 1401 of the 3rd T-valve 14 and the second port one 402 of the 3rd T-valve 14 often open and the 3rd port one 403 of the 3rd T-valve 14 is normally closed.Second port one 502 of four-way valve 15 and the 4th port one 504 of four-way valve 15 often open and the 3rd port one 503 of the first port 1501 of four-way valve 15 and four-way valve 15 is normally closed.

When condensed water water cell 5 is for full and tap water water cell 3 be sky, and user is when only having a request of drinking water water, 3rd port 803 of the first T-valve 8 is opened and is communicated with the first port 801 of the first T-valve 8, and disconnect the second port 802 of the first T-valve 8,3rd port 903 of the second T-valve 9 is opened and is communicated with the first port 901 of the second T-valve 9, and disconnect the second port 902 of the second T-valve 9, make the 3rd T-valve 14 and four-way valve 15 keep standard state.Now, the tap water that clean unit 2 produces chews 4 for user through the 3rd port 903-water of the first port 901-the second T-valve 9 of drinking water outlet 202-the second T-valve 9.The condensed water that clean unit 2 produces, through the 3rd port 803-purify through rearmounted clean unit 10 of the first port 801-the first T-valve 8 of condensed water outlet the 203-the first T-valve 8, again by preprocessing unit 1 pre-treatment after enter clean unit 2 processes after confluxing with municipal tap water.

When condensed water water cell 5 is empty and tap water water cell 3 is full, and user is when only having water for cleaning (i.e. the useful water request of watering equipment 6) to ask, 3rd port one 403 of the 3rd T-valve 14 is opened and is communicated with the first port 1401 of the 3rd T-valve 14, first port 1501 of four-way valve 15 and the 3rd port one 503 of four-way valve 15 are all opened and the 4th port one 504 of the second port one 502 of four-way valve 15 and four-way valve 15 is all closed, and make the first T-valve 8 and the second T-valve 9 keep standard state.Now, municipal tap water flows through the 3rd port one 503-the three postpositive disposal unit 13 of first port 1501-four-way valve 15 of the 3rd port one 403-four-way valve 15 of the first port 1401-the three T-valve 14 of preprocessing unit 1-the three T-valve 14, final for watering equipment 6.

In addition, when condensed water water cell 5 is empty and tap water water cell 3 is full, and user is when only having water for cleaning (i.e. the useful water request of watering equipment 6) to ask, the first T-valve 8 is made to keep standard state, first port 901 of the second T-valve 9 is disconnected, make three port standard-sized sheets of the 3rd T-valve 14, the 4th port one 504 of four-way valve 15 is disconnected, then current can be made to separate a road clean unit 2 is rinsed.Namely, municipal tap water is after preprocessing unit 1 pre-treatment, two-way is divided at the 3rd T-valve 14, second port one 502 of second port one 402-clean unit 2-four-way valve 15 of one tunnel the 3rd T-valve 14, first port 1501 of the 3rd port one 403-four-way valve 15 of another Lu Zejing the 3rd T-valve 14, then two-way current are after the 3rd port one 503 of four-way valve 15 confluxes, through the 3rd postpositive disposal unit 13, final for watering equipment 6.

According to an example of the present utility model, described second emergent branch road also comprises the 3rd check valve 16,3rd check valve 16 is located between concentrated water outlet 502 and the 3rd postpositive disposal unit 13, and when starting to prevent the described second emergent branch road, the water for cleaning of purification flows into condensed water water cell.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the 4th check valve the 17, four check valve 17 and is connected with pre-process import 101 and is positioned at the upstream side of the tie point that the first check valve 11 is connected with pre-process import 101.Thus, once the situation of cutting off the water appears in municipal water supplies, the remaining aqueous reflux in sub-prime water cleaning systems can be avoided to enter municipal water supplies, so avoid secondary pollution is caused to municipal water supplies.

According to an example of the present utility model, described sub-prime water cleaning systems also comprises the heating unit (not shown) that the water outlet of chewing 4 to water is heated and/or the refrigeration plant (not shown) freezed to the water outlet that water chews 4.Thus, hot water or cold water can be obtained according to customer need, to improve Consumer's Experience.

According to sub-prime water cleaning systems of the present utility model, the condensed water produced by clean unit is collected in condensed water water cell, and condensed water processing unit is connected with watering equipment, when the useful water request of watering equipment is, preferential use is stored in the condensed water in condensed water water cell, condensed water is at least discharged after once using again, efficiently solves the problem that condensed water is directly discharged.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward ", " clockwise ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary indirect contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this specification sheets, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this specification sheets or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (10)

1. a sub-prime water cleaning systems, is characterized in that, comprising:

Preprocessing unit, described preprocessing unit has pre-process import and pre-process outlet;

Clean unit, described clean unit has the outlet of water-in, drinking water outlet and condensed water, and described water-in exports with described pre-process and is connected;

Tap water water cell, described tap water water cell has drinks water-in and drink water outlet, described in drink water-in and be connected with described drinking water outlet, described in drink and water outlet is connected with water chews;

Condensed water water cell, described condensed water water cell has concentrated water-in and concentrated water outlet, and described concentrated water-in exports with described condensed water and is connected; With

Watering equipment, described watering equipment is connected with described concentrated water outlet.

2. sub-prime water cleaning systems according to claim 1, is characterized in that, also comprises the first postpositive disposal unit, drinks between water outlet and described water chews described in described first postpositive disposal unit is located at.

3. sub-prime water cleaning systems according to claim 2, it is characterized in that, also comprise the first emergent branch road, described first emergent branch road comprises the first T-valve and the second T-valve, first port of described first T-valve exports with described condensed water and is connected, second port of described first T-valve is connected with described concentrated water-in, 3rd port of described first T-valve is connected with described pre-process import, first port of described second T-valve is connected with described drinking water outlet, second port of described second T-valve and describedly drink water-in, 3rd port of described second T-valve is chewed with described water and is connected.

4. sub-prime water cleaning systems according to claim 3, is characterized in that, the described first emergent branch road also comprises the second postpositive disposal unit, and described second postpositive disposal unit is located between the 3rd port of described first T-valve and described pre-process import.

5. sub-prime water cleaning systems according to claim 4, it is characterized in that, described first emergent branch road also comprises the first check valve and the second check valve, described first check valve to be located between the 3rd port of described first T-valve and described pre-process import and to be positioned at the downstream side of described second postpositive disposal unit, described second check valve be located at described first postpositive disposal unit chew with described water between and the 3rd port being positioned at described second T-valve and described water chew the upstream side of the tie point be connected.

6. sub-prime water cleaning systems according to claim 5, is characterized in that, also comprises the 3rd postpositive disposal unit, and described 3rd postpositive disposal unit is located between described concentrated water outlet and described watering equipment.

7. sub-prime water cleaning systems according to claim 6, it is characterized in that, also comprise the second emergent branch road, described second emergent branch road comprises the 3rd T-valve and four-way valve, first port of described 3rd T-valve exports with described pre-process and is connected, second port of described 3rd T-valve is connected with described water-in, 3rd port of described 3rd T-valve is connected with the first port of described four-way valve, second port of described four-way valve exports with described condensed water and is connected, 3rd port of described four-way valve is connected with described 3rd postpositive disposal unit, 4th port of described four-way valve is connected with the first port of described first T-valve.

8. sub-prime water cleaning systems according to claim 7, is characterized in that, the described second emergent branch road also comprises the 3rd check valve, and described 3rd check valve is located between described concentrated water outlet and described 3rd postpositive disposal unit.

9. sub-prime water cleaning systems according to claim 8, is characterized in that, also comprises the 4th check valve, and described 4th check valve is connected with described pre-process import and is positioned at the upstream side of the tie point that described first check valve is connected with described pre-process import.

10. sub-prime water cleaning systems according to claim 9, is characterized in that, also comprises the heating unit that the water outlet of chewing described water is heated and/or the refrigeration plant freezed to the water outlet that described water is chewed;

Described preprocessing unit is selected from the combination of any one or they in PP cotton filter core, active carbon filter core, ceramic element, ionic adsorption filter core, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core,

Described clean unit is RO film filter or nano-filtration membrane filter,

Described tap water water cell and described condensed water water cell are pressure water storage barrel or normal pressure water butt,

Described watering equipment is selected from any one in washing machine, water-heater, water closet,

Described first postpositive disposal unit is selected from microorganism filter core and/or silica gel precipitate absorption filter element,

Described second postpositive disposal unit is selected from the combination of any one or they of ionic adsorption filter core, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core;

Described 3rd postpositive disposal unit is selected from the combination of any one or they of microorganism filter core, ionic adsorption filter core, ceramic element, microfiltration membrane filter core, ultrafiltration membrane filter element or KDF filter core.