CN206580639U - Water treatment facilities - Google Patents

Abstract

The utility model discloses a kind of water treatment facilities, it is related to water-treatment technology field, water treatment facilities includes the water storage device with water inlet and delivery port, the water treatment facilities also includes drive device and at least one first demineralized water treatment device, the drive device, the first demineralized water treatment device, water storage device can connect to form the first soft water path, the first soft water path is circulation waterway, the water inlet of the water storage device can be connected with water source, and the delivery port of the water storage device can be connected with water end (W.E.).Water treatment facilities in the utility model can carry out cyclic softening to the water in water storage device and can carry out mixing output by the water of inflow and soft water, wherein the water flowed into can carry out a certain degree of softening.

Description

Water treatment facilities

Technical field

The utility model is related to water-treatment technology field, more particularly to a kind of water treatment facilities.

Background technology

Daily water consumption is divided into hard water and the class of soft water two, and the municipal tap water usually used belongs to hard water, containing substantial amounts of calcium, The metal ions such as magnesium, drink the water of high rigidity for a long time, can cause the lesion of the systems such as cardiovascular and cerebrovascular, nerve, uropoiesis hematopoiesis, cause Liver, courage, kidney stone etc.；Skin is cleaned using hard water, one layer of soap agglomerated particles mucous membrane, this layer of viscosity can be left on skin Film dirt and bacterium on skin etc. can be caused to be difficult to clean off；Cause clothes fiber stiff using hard water cleaning clothing, also Incrustation scale can be formed on sanitary equipment surface, block pipeline.

Generally, when user needs to use soft water, directly obtained by the way that the water treatment facilities of sofening treatment can be carried out to water Soft water.The soft water that existing water treatment facilities on the market inputs water source directly exports used with supplying user after treatment, Such as water softening device etc., is typically all softened for an overflow-type to water, is regenerated during regeneration using salt, but in some occasions, example Such as user is larger to soft water demand volume in bathing, laundry, so that carrying out sofening treatment to water in water treatment facilities The installation of part could realize the soft water under big flow using the very big of quantitative change.Sofening treatment is carried out to water due to some Piece price it is sufficiently expensive, such as amberplex, only for meet soft water demand volume that some occasions of user occur compared with Big situation and the area installation or usage amount that increase the part that sofening treatment is carried out to water can cause whole water treatment facilities Cost be significantly increased, while comparatively laborious using salt regenerative operation.

Utility model content

In order to overcome the drawbacks described above of prior art, the utility model embodiment technical problem to be solved there is provided A kind of water treatment facilities and its control method, it can carry out cyclic softening to the water in water storage device.

To solve the above problems, the utility model embodiment provides a kind of water treatment facilities, including with water inlet and go out The water storage device at the mouth of a river, the water treatment facilities also includes drive device and at least one first demineralized water treatment device, the driving dress Put, the first demineralized water treatment device, water storage device can connect to form the first soft water path, the first soft water path is circulation waterway, The water inlet of the water storage device can be connected with water source, and the delivery port of the water storage device can be connected with water end (W.E.).

Preferably, the water treatment facilities include the second soft water path, the second soft water path can with the water source and Connected with water end (W.E.), the second soft water path is provided with the second demineralized water treatment device.

Preferably, the water treatment facilities include the second soft water path, the second soft water path can with the water source and Connected with water end (W.E.), the first soft water path and the second soft water path sections are overlapping, first demineralized water treatment device is arranged at described Second soft water path.

Preferably, the water storage device includes the heating unit for being used to heat the water in water storage device.

Preferably, the water treatment facilities also includes the first control valve, and first control valve goes out with the water storage device The mouth of a river, first demineralized water treatment device and connected with water end (W.E.).

Preferably, first control valve at least include connected with first demineralized water treatment device first port, with it is described Second port that water storage device delivery port is connected and with the 3rd port being connected with water end (W.E.)；

When in the first working condition, the first port is connected with second port；

When the first sub- working condition in the second working condition, the first port, the second port and described 3rd port is connected.

Preferably, it is described when the second sub- working condition in the second working condition, the first port and described Three ports are connected.

Preferably, when the three sub- working condition in the second working condition, the second port and the 3rd end Mouth connection.

Preferably, the water treatment facilities is additionally provided with discharge outlet, and first control valve also includes and the discharge outlet The 4th port being connected, when in three working conditions, the first port is connected with the 4th port.

Preferably, the water treatment facilities also includes the first control valve, and first control valve goes out with the water storage device The mouth of a river, the water storage device water inlet and the first demineralized water treatment device water inlet are connected.

Preferably, first control valve at least include be connected with the water storage device water inlet first port, with Second port that the water storage device delivery port is connected, the 3rd port being connected with the entrance of first demineralized water treatment device； The outlet of the demineralized water treatment device is connected with the water storage device delivery port.

Preferably, when in the first working condition, the first port is connected with the 3rd port；

When the first sub- working condition in the second working condition, the first port, the 3rd port connection.

Preferably, when the three sub- working condition in the second working condition, the first port, second end Mouth, the 3rd port disconnect.

Preferably, when the four sub- working condition in the second working condition, the first port, the second port Connection.

Preferably, the water treatment facilities is additionally provided with discharge outlet, and the water treatment facilities also includes and the discharge outlet 3rd control valve of connection, the outlet of first demineralized water treatment device can be connected with discharge outlet；

When in first, second working condition, the 3rd control valve connects the first demineralized water treatment device outlet and described The delivery port of water storage device；

When in three working conditions, the first port is connected with the 3rd port, the 3rd control valve connection The first demineralized water treatment device outlet and the discharge outlet.

Preferably, first control valve at least include be connected with the water storage device water inlet first port, with Second port that the water storage device delivery port is connected, the 3rd port being connected with the entrance of first demineralized water treatment device； The second control valve is additionally provided between the water storage device delivery port and the outlet of the first demineralized water treatment device；

When in the first working condition, the first port is connected with the 3rd port, and second control valve is opened；

The first sub- working condition when in the second working condition, the first port, the second port and the described 3rd Port is connected and second control valve is closed；Or the first port is connected with the 3rd port and second control valve is beaten Open.

Preferably, when the second sub- working condition in the second working condition, the first port and the 3rd end Mouth connection and second control valve closing.

Preferably, when the three sub- working condition in the second working condition, first, second, third port disconnects And second control valve is opened.

Preferably, when the four sub- working condition in the second working condition, the first port and second end Mouth connection and second control valve opening.

Preferably, when the five sub- working condition in the second working condition, the second port and the 3rd end Mouth connection and second control valve closing.

Preferably, the water treatment facilities is additionally provided with discharge outlet, and the water treatment facilities also includes and the discharge outlet 3rd control valve of connection, the outlet of the demineralized water treatment device can be connected with discharge outlet；

When in first, second working condition, the 3rd control valve is closed；

When in three working conditions, the first port is connected with the 3rd port, and the 3rd control valve is opened And second control valve close.

Preferably, the water treatment facilities also includes the water quality acquisition device being arranged in the circulation waterway；

When in the first working condition, according to the water quality result of the acquisition of the water quality acquisition device, the water storage is controlled Water circulation in device passes through the parameter preset of first demineralized water treatment device.

Preferably, the water quality acquisition device is TDS testers.

Preferably, the water quality acquisition device is obtained by applying alive mode measurement to electrode in the demineralized water treatment device Water quality condition in the circulation waterway.

Preferably, Electronic anode rod is provided with the water storage device, water quality acquisition device is according to the Electronic anode rod On apply alive mode measurement and obtain water quality condition in the circulation waterway.

Preferably, the demineralized water treatment device includes at least one pair of electrode, and the water treatment facilities also includes controlling the electrode Voltage swing voltage controller.

Preferably, the demineralized water treatment device at least includes amberplex, ion exchange resin, Electro Sorb, electrolysis from film, electricity Hold the one of which in deionization.

The technical solution of the utility model has following notable beneficial effect：

1st, the utility model sewerage disposing device passes through the drive device, demineralized water treatment device, water storage device water inlet, water outlet Mouth connection forms circulation waterway and then can carry out cyclic softening to the water in water storage device, can so greatly reduce and be arranged on The usage amount of the film or ion exchange resin of sofening treatment etc., larger journey while soft water is met are carried out in demineralized water treatment device to water The cost for reducing water treatment facilities of degree.Secondly, the enough water by inflow of water treatment facilities carries out mixing output with soft water, and then The softening degree of output water can be adjusted.

2nd, the first control valve is provided with the utility model sewerage disposing device, the first control valve causes water treatment facilities to have Having can switch over to meet different demands between a variety of different working conditions, and a variety of different working conditions. During the first working condition, water treatment facilities can carry out circulation soft water to the water in water storage device；In the second working condition, water Processing unit can be to the soft water that certain softening degree is exported with water end (W.E.)；In three working conditions, water treatment facilities can be right Demineralized water treatment device is regenerated, and discharges the waste water produced, and regeneration of the present utility model need not add salt, facilitate user, While environmental protection.

Brief description of the drawings

Accompanying drawing described here is only used for task of explanation, and is not intended in any way limit disclosed in the utility model Scope.In addition, shape and proportional sizes of each part in figure etc. are only schematical, it is used to help to reason of the present utility model Solution, is not the specific shape and proportional sizes for limiting each part of the utility model.Those skilled in the art is new in this practicality Under the teaching of type, various possible shapes and proportional sizes can be selected to implement the utility model as the case may be.

Fig. 1 is structural representation of the utility model embodiment sewerage disposing device under first embodiment；

Fig. 2 is structural representation of the utility model embodiment sewerage disposing device under second embodiment；

Fig. 3 is structural representation of the utility model embodiment sewerage disposing device under the 3rd embodiment；

Fig. 4 is the utility model embodiment sewerage disposing apparatus control method first embodiment flow chart.

The reference of the figures above：

1st, water storage device；11st, water inlet；12nd, delivery port；13rd, heating unit；2nd, drive device；3rd, the first demineralized water treatment device； 4th, the second soft water path；5th, the first control valve；51st, first port；52nd, second port；53rd, the 3rd port；54th, the 4th port； 6th, water source；7th, water end (W.E.) is used；8th, discharge outlet；9th, the second control valve；10th, the 3rd control valve.

Embodiment

With reference to the description of accompanying drawing and the utility model embodiment, can clearly it understand of the present utility model Details.But, embodiment of the present utility model described here is only used for explaining the purpose of this utility model, without It can be understood as being to limitation of the present utility model in any way.Under teaching of the present utility model, technical staff is contemplated that Based on any possible deformation of the present utility model, these are regarded as belonging to scope of the present utility model.

It should be noted that when element is referred to as " being arranged at " another element, it can be directly on another element Or can also have element placed in the middle.When an element is considered as " connection " or " connection " another element, it can be It is directly connected to, is communicated to another element or may be simultaneously present centering elements.Term as used herein " vertical ", For illustrative purposes only, it is unique to be not offered as " level ", " on ", " under ", "left", "right" and similar statement Embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article and the technical field of the application is belonged to The implication that technical staff is generally understood that is identical.The term used in the description of the present application is intended merely to description tool herein The purpose of the embodiment of body, it is not intended that in limitation the application.Term as used herein "and/or" includes one or more The arbitrary and all combination of related Listed Items.

Fig. 1 is structural representation of the utility model embodiment sewerage disposing device under first embodiment, such as Fig. 1 It is shown, a kind of water treatment facilities is proposed in this application, and the water treatment facilities is included with water inlet 11 and delivery port 12 Water storage device 1, water treatment facilities also includes drive device 2 and at least one first demineralized water treatment device 3, drive device 2, the first soft water Device 3, water storage device 1 can connect to form the first soft water path, and the first soft water path is circulation waterway, and water storage device 1 enters The mouth of a river 11 can be connected with water source 6, and the delivery port 12 of water storage device 1 can be connected with water end (W.E.) 7.In aforesaid way, the first soft water Device 3 can be arranged on the optional position of circulation waterway.

Water treatment facilities includes the second soft water path 4, wherein, the second soft water path 4 can be connected with water source 6 and with water end (W.E.) 7； In present embodiment, the first soft water path and the part path of the second soft water path 4 are overlapping, and the first demineralized water treatment device 2 can be arranged at On second soft water path.In another embodiment, the first soft path and the second soft water path 4 are separately provided, and second Soft water path 4 can be provided with least one second demineralized water treatment device (not shown).

The present embodiment water treatment facilities forms circulation waterway by drive device 2, demineralized water treatment device 3, the connection of water storage device 1, When in the first working condition, drive device 2 is opened so that the water in water storage device 1 can circulate through the first demineralized water treatment device 3, Cyclic softening is carried out to the water in water storage device 1.When each water flows through the first demineralized water treatment device 3, can all there is a certain degree of softening, By repeatedly circulating and then so that the hardness of the water in water storage device 11 is gradually reduced until reach requirement, in this way, can be significantly The usage amount of the film being arranged in the first demineralized water treatment device 3 or ion exchange resin etc. is reduced, it is larger while soft water is met The cost for reducing water treatment facilities of degree.The process second that the present embodiment sewerage disposing device can be inputted to water source 6 is soft The water of water route 4 is softened, then with carrying out blending transportation to using water by the first water for softening path softening in water storage device 1 End 7, and then cause the water quality of whole water treatment facilities water outlet to reach soft water requirement；Meanwhile, the first soft water path and the second soft water When the part path of path 4 is overlapping and the first demineralized water treatment device 3 is located on the second soft water path 4, the first demineralized water treatment device 3 and second is soft Water installations can share a demineralized water treatment device, the consumption of demineralized water treatment device be saved, so as to further reduce cost.

Refer to shown in Fig. 1, water treatment facilities can also include the first control valve 5, the first control valve 5 and water storage device 1 Delivery port 12, the first demineralized water treatment device 3 or the second demineralized water treatment device and connected with water end (W.E.) 7.First control valve 5 at least includes and the First port 51 that one demineralized water treatment device 3 or the second demineralized water treatment device are connected, the second port 52 being connected with delivery port 12 and The 3rd port 53 being connected with water end (W.E.) 7.

By controlling the first control valve 5 to enable to this water treatment facilities to realize multiple working conditions, such as:

When in the first working condition, first port 51 is connected with second port 52, so that the water in water storage device 1 can Circulate through the first demineralized water treatment device 3, now by open drive device 2 so that the water circulation in water storage device 1 flow successively through into The mouth of a river 11, drive device 2, the first demineralized water treatment device 3, first port 51, second port 52 and delivery port 12, so that water storage device 1 In water gradually softened by the first demineralized water treatment device 3 until reach requirement.

When in the second working condition, water treatment facilities can provide soft water to water end (W.E.) 7, wherein the second working condition bag Include many sub- working conditions.

When the first sub- working condition in the second working condition, first port 51, the port 53 of second port 52 and the 3rd Connection, so that the water that water source 6 is inputted is exported after being mixed after softening through the first demineralized water treatment device 3 with the water after softening in water storage device 1. Further, in that case, by obtaining the flow and water quality situation of the water for flowing through the first demineralized water treatment device 3, in real time to the The parameter of one demineralized water treatment device 3 is adjusted, so as to realize that the hardness for the water being mixed into can adjust, final realize is transported to water end (W.E.) 7 The hardness of water can adjust, it is ensured that the water quality of whole water treatment facilities.

When the second sub- working condition in the second working condition, first port 51 is connected with the 3rd port 53, so that water The water that source 6 is inputted is exported after softening through the first demineralized water treatment device 3, specifically, when user need not use the soft water in water storage device 1 When, directly exported after can directly the water through the second soft water path 4 that water source 6 is inputted be softened.

When the 3rd sub- state in the second working condition, second port 52 is connected with the 3rd port 53, so that water storage is filled The water after in 1 softening is put directly to export；In this process, when needing to use water with water end (W.E.) 7, water directly is supplemented in water inlet 11, So that the water in water storage device 1 is used by oneself after softening, water end (W.E.) 7 is discharged is used with supplying user.

Further, water treatment facilities is additionally provided with discharge outlet 8, and the first control valve 5 also includes what is be connected with discharge outlet 8 4th port 54.When in three working conditions, first port 51 is connected with the 4th port 54, and the first demineralized water treatment device 3 is carried out Regeneration, by the water inputted from water source through the first demineralized water treatment device 3 and by the waste water that produces when regenerating or other liquid from the row of discharge outlet 8 Go out.

Fig. 2 is structural representation of the utility model embodiment sewerage disposing device under second embodiment, such as Fig. 2 Shown, water storage device 1 has water inlet 11 and delivery port 12, and drive device 2 is connected between water inlet 11 and delivery port 12 With at least one the first demineralized water treatment device 3, drive device 2, demineralized water treatment device 3, water storage device 1 can connect to form the first soft water road Footpath, i.e. circulation waterway.The delivery port 12 of water storage device 1 can be connected with water end (W.E.) 7, and the water inlet 11 of water storage device 1 can be with water source 6 Connection.Specifically, drive device 2 is connected with the water inlet 11 of water storage device 1, the first demineralized water treatment device 3 and water storage device 1 Delivery port 12 is connected.The water inlet of water storage device 1 can be connected with water source 6, and the delivery port 11 of water storage device 1 can be with being connected with water end (W.E.) 7 It is logical；

Further, in present embodiment, the first soft water path and the part path of the second soft water path 4 are overlapping, and first is soft Water installations 3 are still arranged on the second soft water path 4 simultaneously.In one embodiment, the first soft path and the second soft water road Footpath 4 is separately provided, and the second soft water path 4 can be provided with least one second demineralized water treatment device (not shown).It is above-mentioned to set The technique effect for putting generation is identical with first embodiment, will not be repeated here.

Further, water treatment facilities also includes the first control valve 5, and the first control valve 5 can be with the delivery port of water storage device 1 12nd, the water inlet 11 of water storage device 1 and the water inlet 11 of the first demineralized water treatment device 3 are connected, the first control valve 5 can by with driving Device 2 is connected, and then is connected with the water inlet 11 of the first demineralized water treatment device 3.First control valve 5 at least includes and water storage device 1 First port 51 that water inlet 11 is connected, the second port 52 being connected with the delivery port 12 of water storage device 1, fill with the first soft water Put the 3rd port 53 that 3 entrance is connected；The outlet of first demineralized water treatment device 3 is connected with the delivery port 12 of water storage device 1.

In the present embodiment, by controlling the first control valve 5 to enable to this water treatment facilities to realize multiple working conditions, Such as:

When in the first working condition, first port 51 is connected with the 3rd port 53, so that the water in water storage device 1 can Circulate through the first demineralized water treatment device 3；Now it is closed with water end (W.E.) 7, by opening drive device 2 so that water storage device 1 In water circulation flow successively through water inlet 11, drive device 2, first port 51, the 3rd port 53, the first demineralized water treatment device 3 and go out The mouth of a river 12, makes the water in water storage device 1 be reached by the cyclic softening of the first demineralized water treatment device 3 and requires.

When in the second working condition, water treatment facilities can be to the water provided with water end (W.E.) 7 by softening, wherein the second work Making state includes many sub- working conditions.

When the first sub- working condition in the second working condition, first port 51, the 3rd port 53 are connected, so that water source Water of the water of 6 inputs after the softening of the first demineralized water treatment device 3 is exported after being mixed with the water after softening in water storage device 1；The water at water source 6 A part flows into water softened in water storage device 1, water storage device 1 and flowed out from delivery port 12, and the water another part at water source 6 passes through Drive device 2 flows through the port 53 of first port 51 and the 3rd, after the first demineralized water treatment device 3 once softens with water storage device 1 Water end (W.E.) 7 of being used by oneself after the water mixing flowed out from delivery port 12 flows out, and the softening degree for the water that water end (W.E.) 7 of being used by oneself in the case of this kind flows out is same Sample is adjustable, be will not be repeated here.

When the 3rd sub- working condition in the second working condition, first port 51, second port 52, the 3rd port 53 are equal Disconnect, so that the water after softening in water storage device 1 is directly exported, the water exported in the case of this kind is only through soft in water storage device 1 The water of change.

When the 4th sub- working condition in the second working condition, first port 51, second port 52 are connected, so that water source The water of 6 inputs is exported after being mixed with the water after softening in water storage device 1；The water part at water source 6 flows into water storage device 1, water storage Flowed out in device 1 by the water of cyclic softening from delivery port 12, the water another part at water source 6 flows through first by drive device 2 Port 51 and second port 52 flow out with water end (W.E.) 7 of being used by oneself after being mixed in water storage device 1 from the water of the outflow of delivery port 12.

As shown in Fig. 2 the water treatment facilities in present embodiment be additionally provided with discharge outlet 8 and be connected with discharge outlet 8 Three control valves 10.In the present embodiment, the 3rd control valve 10 can be triple valve, three ports of triple valve respectively with Discharge outlet 8, the delivery port 12 of water storage device 1, the outlet connection of the first demineralized water treatment device 3.When in first, second working condition, 3rd control valve 10 connects the delivery port 12 of the outlet of the first demineralized water treatment device 3 and the water storage device 1.Water treatment facilities Also there is the 3rd working condition, i.e., the first demineralized water treatment device 3 is regenerated, when in three working conditions, the He of first port 51 3rd port 53 is connected；3rd control valve 10 connects the outlet of the first demineralized water treatment device 3 and the discharge outlet 8, makes defeated from water source 6 The water entered discharges through the first demineralized water treatment device 3 and from discharge outlet 8 waste water of generation.

Fig. 3 is structural representation of the utility model embodiment sewerage disposing device under the 3rd embodiment, such as Fig. 3 Shown, present embodiment is in the delivery port 12 of water storage device 1 and the first soft water dress with foregoing second embodiment difference The second control valve 9 is also provided between the outlet for putting 3.Second control valve 9 can be with connection and the valve disconnected, tool Body can be check valve or open and close valve.

In present embodiment, by controlling the first control valve 5 and the second control valve 9 to enable to this water treatment facilities to realize Multiple working conditions:

When in the first working condition, first port 51 is connected with the 3rd port 53, and the second control valve 9 is in open shape State, so that the water in water storage device 1 can circulate through the first demineralized water treatment device 3.Now by opening drive device 2 so that water storage Water circulation in device 1 flows successively through water inlet 11, drive device 2, first port 51, the 3rd port 53, the first demineralized water treatment device 3 With delivery port 12, the water in water storage device 1 is set to reach requirement after the cyclic softening of the first demineralized water treatment device 3.

When in the second working condition, water treatment facilities can be to the water provided with water end (W.E.) 7 by softening, wherein the second work Making state includes many sub- working conditions.

The first sub- working condition in the second working condition, first port 51, the port 53 of second port 52 and the 3rd connect Logical and the second control valve 9 is closed, so that after the water that water source 6 is inputted is mixed with the water of softening in water storage device 1, then through the first soft water Water end (W.E.) 7 of being used by oneself after the softening of device 3 is exported；Or first port 51 is connected with the 3rd port 53 and the second control valve 9 is opened, so that The water that water source 6 is inputted mixes personal water end (W.E.) 7 with the water after softening in water storage device 1 after softening through the first demineralized water treatment device 3 and exported.

The second sub- working condition in the second working condition, first port 51 is connected and the second control valve with the 3rd port 53 9 are closed, so that the water inputted from water source 6 is used by oneself again after once softening through the first demineralized water treatment device 3, water end (W.E.) 7 is directly exported.

In the 3rd sub- working condition of the second working condition, first port 51, second port 52, the 3rd port 53 disconnect And second control valve 9 open so that water storage device 1 in soften after water exported directly from water end (W.E.) 7.

In the 4th sub- working condition of the second working condition, first port 51 is connected and the second control valve with second port 52 9 open, so that the water that water source 6 is inputted flows through the second control valve 9 after being mixed with the water after softening in water storage device 1, then by using Water end (W.E.) 7 is exported.

During five sub- working condition in the second working condition, second port 51 is connected and the second control with the 3rd port 53 Valve 9 processed is closed, so that the water after softening in water storage device 1 is exported through demineralized water treatment device 3.

Water treatment facilities is additionally provided with discharge outlet 8, and water treatment facilities also includes the 3rd control valve being connected with discharge outlet 8 10, the control valve 10 of the present embodiment the 3rd uses open and close valve.The outlet of first demineralized water treatment device 3 can be connected with discharge outlet 8；When First, during the second working condition, the 3rd control valve 10 is closed；When in three working conditions, the port 53 of first port 51 and the 3rd Connection, the 3rd control valve 10 is opened and the second control valve 9 is closed, and is made the water inputted from water source 6 through the first demineralized water treatment device 3 and will be produced Raw waste water is discharged from discharge outlet 8.

In above-mentioned multiple embodiments, drive device 2 can be arranged at the first soft water path and the weight of the second soft water path 4 Folded part.In other embodiments, drive device 2 can be arranged on the optional position in the first soft water path, not do herein Limit.Drive device 2 is pump in above-mentioned multiple embodiments, in other embodiments, and drive device 2 can be water storage dress Any device for putting the offer circulation driving force of the water in 1 is not limited herein.

In above-mentioned multiple embodiments, water storage device 1 is the inner bag of water heater, and water storage device 1 includes being used for water storage The heating unit 13 that water in device 1 is heated, in this way, the soft water in water storage device 1 can also be heated to form hot water, so that Improve softening efficiency of the demineralized water treatment device 3 to water.In one embodiment, water storage device 1 can also for it is any storage cold water or The container of person's hot water, heating unit 13 can be arranged on outside water storage device 1 and be connected with water storage device 1, by the water of heating Store in water storage device 1.

In above-mentioned multiple embodiments, in order to improve the effect of soft water, the first demineralized water treatment device 3 can include it is multiple, the Two water softening devices 3 can also include multiple.Demineralized water treatment device 3 is two in one embodiment, and one to be arranged at first soft On water route, another can be arranged on the second soft water path 4.

In above-mentioned multiple embodiments, the first or second demineralized water treatment device 3 at least includes amberplex, ion and handed over Resin, Electro Sorb, electrolysis are changed from the one of which in film, capacitive deionization, preferably amberplex, can play soft to water Change act on, carry out soft water when and do not need sewer, regenerated without the need for salt is added, it is to avoid user's frequent operation, simultaneously protect Retaining ring border.

Demineralized water treatment device 3 includes outlet and entrance, at least one pair of electrode and cation and anion exchange body.When manufacturing soft water, in electricity Pole two ends apply voltage, due to the effect of electric field, and the meeting cation exchange column such as calcium, magnesium ion in water is exchanged or adsorbed, from And reach soft water effect.During regeneration, apply backward voltage at electrode two ends, remove the ion of exchange or absorption.Regeneration The modes such as electrically regenerative or acid regeneration can be passed through.Generally, the selection of time user dry period of regeneration, night Between it is the most suitable.

In above-mentioned multiple embodiments, water treatment facilities also includes the water quality acquisition device being arranged in circulation waterway (not shown), the water quality and record in water storage device, including initial water quality and current water quality can be obtained in real time.Specifically , water quality acquisition device can be TDS testers, and water quality is obtained by TDS testers, or water quality acquisition device passes through to the Electrode applies alive mode measurement and obtains water quality condition in circulation waterway in one demineralized water treatment device 3, or in water storage device 1 Electronic anode rod is provided with, water quality acquisition device is obtained in circulation waterway according to alive mode measurement is applied in Electronic anode rod Water quality condition.Optionally, initial water quality can be by receiving user's input or Network Capture in one embodiment.

During the first working condition in above-mentioned multiple embodiments, when the cycle-index for not receiving user's setting or During the time, the initial water quality in water storage device 1 is obtained according to water quality acquisition device, default cycle-index or time pair is selected Water in water storage device 1 is softened.When the cycle-index or time for receiving user's setting, according to initial water quality survey The rotating speed of drive device 2 is big so as to the flow velocity for controlling water and/or the voltage for adjusting the first at least one pair of electrode two ends of demineralized water treatment device 3 It is small.Voltage controller is according to the initial water quality of water storage device and/or current water quality during the second working condition, and the voltage of coordination electrode is big It is small, adjust the water quality for the water being mixed into from water source the second soft water path 4.

In above-mentioned multiple embodiments, because the water being mixed into from water source 6 is only through first demineralized water treatment device 3, it softens Degree is relatively low, and so it is defeated with that may reduce whole water treatment facilities in water storage device 1 after the water of softening is mixed The water quality gone out, so, when receiving the first sub- state in user's the second working condition of selection, obtain water quality and the storage at water source 6 The water quality of water in water installations 1 by softening, the water quality for the water that the progress inputted according to two water quality adjustments from water source 6 is mixed. So as to which realization can adjust to the water hardness for flowing into the second soft water path 4, final to realize that the hardness for being transported to the water for using water end (W.E.) 7 Regulation, it is ensured that the water quality of whole water treatment facilities.Specifically, main lead to is adjusted in the parameter to the first demineralized water treatment device 3 in real time Cross and the voltage swing for putting on first demineralized water treatment device at least one pair of electrode is adjusted, usual voltage is bigger, and soft water effect is got over It is good.

Fig. 4 is the utility model embodiment sewerage disposing apparatus control method first embodiment flow chart, such as Fig. 4 institutes Show, this method includes：

S101：Judge the state of the current selection of user；

S102：When receiving user's the first working condition of selection, the water circulation in control water storage device 1 is soft by first The parameter preset of water installations 3；Specifically, parameter preset includes：At time, number of times, voltage, the wherein at least one of flow velocity, water Reason device has water storage device 1, drive device 2 and at least one first demineralized water treatment device 3 of water inlet 11 and delivery port 12, driving Device 2, the first demineralized water treatment device 3, water storage device 1 can connect to form the first soft water path, and the first soft water path is circulation waterway. By controlling the work of drive device 2 to drive the water in water storage device 1 to circulate through the first soft water by the first soft water path Device 3.

S103：When receiving the first sub- working condition in user's the second working condition of selection, it will be passed through in water storage device The water crossed after softening carries out mixing output with the water inputted from water source, wherein, the water inputted from water source passes through first or second The sofening treatment of demineralized water treatment device 3.Specifically, water treatment facilities also includes the second soft water path 4, the second soft water path 4 can be with water source 6 Connected with water end (W.E.) 7, the second soft water path 4 is provided with the second demineralized water treatment device.First soft water path and the part road of the second soft water path 4 Footpath is overlapping.In one embodiment, the first soft water path and the second soft water path 4 are separately provided, and the second soft water path 4 Eligible when being separately provided with the second demineralized water treatment device, the water inputted from water source passes through the sofening treatment of the second demineralized water treatment device 3.

Optionally, wherein in step S103, the water in water storage device 1 after softening and the water that is inputted from water source 6 are entered Row mixing output, is specifically included：As shown in figure 1, water in water storage device after the softening of the first demineralized water treatment device 3 with from water source Before the water mixing of 6 inputs, the water inputted from water source 6 is softened by the first demineralized water treatment device 3.

As shown in figure 1, when the first sub- working condition in the second working condition, first port 51, the and of second port 52 3rd port 53 is connected so that water source 6 input water through the first demineralized water treatment device 3 soften after with water storage device 1 in soften after water Exported after mixing.Further, in that case, the flow and water quality feelings of the water of the first demineralized water treatment device 3 are flowed through by acquisition Condition, at least one pair of electrode voltage size to the first demineralized water treatment device 3 is adjusted in real time, so as to realize that the hardness for the water being mixed into can Regulation, it is final to realize that the hardness for being transported to the water for using water end (W.E.) 7 can adjust, it is ensured that the water quality of whole water treatment facilities.

As shown in Fig. 2 when the first sub- working condition in the second working condition, first port 51, the 3rd port 53 connect It is logical, so that water of the water of the input of water source 6 after the softening of the first demineralized water treatment device 3 is defeated after being mixed with the water after softening in water storage device 1 Go out；The water part at water source 6 flows into water softened in water storage device 1, water storage device 1 and flowed out from delivery port 12, the water at water source 6 Another part flows through the port 53 of first port 51 and the 3rd by drive device 2, after the first demineralized water treatment device 3 once softens with Water end (W.E.) 7 of being used by oneself after the water mixing flowed out in water storage device 1 from delivery port 12 flows out.

As shown in figure 3, the first sub- working condition in the second working condition, first port 51 is connected with the 3rd port 53 And second control valve 9 open so that water source 6 input water through the first demineralized water treatment device 3 soften after with water storage device 1 in soften after The personal water end (W.E.) 7 of water mixing is exported.

Optionally, wherein in step S103, the water in water storage device 1 after softening and the water that is inputted from water source 6 are entered Row mixing output, including：It is soft by first again after water after softening in water storage device 1 is mixed with the water inputted from water source Water installations 3 carry out softening output.

As shown in figure 3, the first sub- working condition in the second working condition, first port 51, second port 52 and Three ports 53 are connected and the second control valve 9 is closed, so that after the water that water source 6 is inputted is mixed with the water of softening in water storage device 1, then Water end (W.E.) 7 of being used by oneself after softening through the first demineralized water treatment device 3 is exported.

Further, the control method of above-mentioned water treatment facilities also includes：The second working condition is selected when receiving user In the second sub- working condition when, the water inputted from water source 6 is exported through the first demineralized water treatment device 3.

Optionally, as shown in figure 1, when the second sub- working condition in the second working condition, first port 51 and the 3rd Port 53 is connected, so that the water that water source 6 is inputted is exported after softening through the first demineralized water treatment device 3, specifically, when user need not use It is directly defeated after can directly the water through the second soft water path 4 that water source 6 is inputted be softened during soft water in water storage device 1 Go out.

Optionally, as shown in figure 3, in the second working condition the second sub- working condition, the port of first port 51 and the 3rd 53 connections and the second control valve 9 is closed so that the water inputted from water source 6 once soften through the first demineralized water treatment device 3 after personal water again End 7 is directly exported.

Further, the control method of above-mentioned water treatment facilities also includes：The second working condition is selected when receiving user In three sub- working conditions when, the water after softening in water storage device 1 is directly exported.

Optionally, as shown in figure 1, when the 3rd sub- state in the second working condition, the port of second port 52 and the 3rd 53 connections, so that the direct output after softening in water storage device 1 through the first demineralized water treatment device 3；In this process, needed when with water end (W.E.) 7 When using water, water directly is supplemented in water inlet 11, water end (W.E.) 7 exports to supply use so that the water after softening in water storage device 1 is used by oneself Family is used.

Optionally, as shown in Fig. 2 when the 3rd sub- working condition in the second working condition, first port 51, the second end The 52, the 3rd port 53 of mouth disconnects, so that the water after softening in water storage device 1 is directly exported, the water exported in the case of this kind is only For water softened in water storage device 1.

Optionally, as shown in figure 3, in the 3rd sub- working condition of the second working condition, first port 51, second port 52nd, the 3rd port 53 is disconnected and the second control valve 9 is opened, so that the water after softening in water storage device 1 is directly from defeated with water end (W.E.) 7 Go out.

Further, the control method of above-mentioned water treatment facilities also includes：The second working condition is selected when receiving user In four sub- working conditions when, output after the water after softening in the water that water source 6 is inputted and water storage device 1 mix.

Optionally, as shown in Fig. 2 when the 4th sub- working condition in the second working condition, first port 51, the second end Mouthfuls 52 connect so that the water that inputs of water source 6 with soften in water storage device 1 after water mix after output；The water part stream at water source 6 The water for entering to pass through in water storage device 1, water storage device 1 cyclic softening is flowed out from delivery port 12, and the water another part at water source 6, which passes through, to be driven The water that dynamic device 2 flows through first port 51 and second port 52 with being flowed out in water storage device 1 from delivery port 12 personal water after mixing Flow out at end 7.

Optionally, as shown in figure 3, in the 4th sub- working condition of the second working condition, first port 51 and second port 52 connections and the second control valve 9 is opened, so that the water in water and water storage device 1 that water source 6 is inputted after softening flows through the after mixing Two control valves 9, then process water end (W.E.) 7 are exported.

Further, the control method of above-mentioned water treatment facilities also includes：The second working condition is selected when receiving user In five sub- working conditions when, by water storage device soften after water exported through the first demineralized water treatment device 3.

Optionally, as shown in figure 3, during five sub- working condition in the second working condition, second port 52 and the 3rd Port 53 is connected and the second control valve 9 is closed, so that the water in water storage device 1 after the softening of the first demineralized water treatment device 3 is through first Demineralized water treatment device 3 is exported.

Further, the control method of above-mentioned water treatment facilities also includes step S104：The 3rd is selected when receiving user During working condition, demineralized water treatment device is regenerated, by the water inputted from water source 6 through the first demineralized water treatment device 3 and will regeneration when produce Waste water discharge.

Optionally, as shown in figure 1, water treatment facilities is additionally provided with discharge outlet 8, the first control valve 5 also includes and discharge outlet 8 The 4th port 54 being connected.When in three working conditions, first port 51 is connected with the 4th port 54, and the first soft water is filled Put 3 to be regenerated, by the water inputted from water source through the first demineralized water treatment device 3 and by the waste water that produces when regenerating or other liquid from arranging Discharge at the mouth of a river 8.

Optionally, as shown in Fig. 2 water treatment facilities is additionally provided with discharge outlet 8 and the 3rd control valve being connected with discharge outlet 8 10, the outlet of the first demineralized water treatment device 3 can be connected with discharge outlet 8.3rd control valve 10 can be a triple valve, the three of triple valve Outlet of the individual port respectively with discharge outlet 8, the delivery port 12 of water storage device 1, the first demineralized water treatment device 3 is connected.When first, second During working condition, the 3rd control valve 10 connects the delivery port 12 of the outlet of the first demineralized water treatment device 3 and water storage device 1.Water process Device also has the 3rd working condition, i.e., the first demineralized water treatment device 3 is regenerated, when in three working conditions, first port 51 connect with the 3rd port 53, and the 3rd control valve 10 connects the outlet of the first demineralized water treatment device 3 and the discharge outlet 8, makes from water The water that source 6 is inputted discharges through the first demineralized water treatment device 3 and from discharge outlet 8 waste water of generation.

Optionally, as shown in figure 3, water treatment facilities is additionally provided with discharge outlet 8, water treatment facilities also includes and discharge outlet 8 3rd control valve 10 of connection, the outlet of the first demineralized water treatment device 3 can be connected with discharge outlet 8；In the delivery port 12 of water storage device 1 and The second control valve 9 is also provided between the outlet of one demineralized water treatment device 3.When in first, second working condition, the 3rd control Valve 10 is closed；When in three working conditions, first port 51 is connected with the 3rd port 53, and the 3rd control valve 10 is opened and second Control valve 9 is closed, and is made the water inputted from water source 6 through the first demineralized water treatment device 3 and is discharged the waste water of generation from discharge outlet 8.

Further, in step S102, the water circulation in control water storage device 1 passes through the default ginseng of the first demineralized water treatment device 3 Number, including：The initial water quality of water in water storage device 1 is obtained, selects the water in the water storage device 1 to follow according to the initial water quality Ring passes through the parameter preset of the first demineralized water treatment device 3.Specifically, the water quality that water treatment facilities also includes being arranged in circulation waterway is obtained Take device (not shown), treatment device for water in the first operative state, the water quality knot that can be obtained according to water quality acquisition device Really, the water in control water storage device 1 circulates through the first demineralized water treatment device 3 at least one times.Specifically, water quality acquisition device can be TDS testers, water quality, or water quality acquisition device are obtained by applying voltage to electrode in demineralized water treatment device by TDS testers Mode measurement obtain water quality condition in circulation waterway, or be provided with water storage device Electronic anode rod, water quality is obtained Device obtains water quality condition in circulation waterway according to alive mode measurement is applied in Electronic anode rod.Optionally, at one By receiving user's input or Network Capture in embodiment.

Further, the control method of above-mentioned water treatment facilities also includes：The parameter preset includes the time and/or secondary Number, accordingly, methods described also includes：When receive user select the first working condition and do not receive user setting circulation When number of times or time, according to the initial water quality of acquisition, default cycle-index and/or time are controlled to water storage device Water in 1 carries out cyclic softening.

Specifically, by pre-setting water quality and cycle-index or time corresponding lists, according to different water quality situations, The different cycle-index of correspondence or time, when the non-setting time of user and cycle-index, water treatment facilities is according to water quality feelings Condition, recommends suitable cycle-index and time automatically.

Further, the control method of above-mentioned water treatment facilities also includes：Methods described also includes：The parameter preset bag Voltage and/or flow velocity are included, accordingly, when the circulation for receiving user's the first working condition of selection and receive user's setting is secondary When number or time, according to the initial water quality, default voltage and/or flow velocity is controlled to carry out the water in water storage device 1 Cyclic softening.1 water circulation passes through the voltage or flow velocity of the first demineralized water treatment device 3 in control water storage device, including：Pass through control The flow velocity of drive device 2 and/or the voltage swing at the first at least one pair of electrode two ends of demineralized water treatment device 3.Specifically, when user needs Quick soft water in a short time, water treatment facilities can take the mode that other are compensated, for example, pass through and control the first demineralized water treatment device 3 The voltage swing at least one pair of electrode two ends, increases soft water efficiency, or adjusts the flow velocity of drive device 2, increases soft water speed.

Further, the control method of above-mentioned water treatment facilities also includes：The second working condition is selected when receiving user In the first sub- state when, obtain water storage device 1 in by softening water water quality, according to the water after the water quality and soft water before soft water The water quality for the water that the progress that matter regulation is inputted from water source is mixed.Further, according to the water quality monitoring result of acquisition, adjust from water The water quality for the water that the progress of source input is mixed, including：The voltage swing of at least one pair of electrode in demineralized water treatment device is controlled, regulation is certainly The water quality for the water that the progress of water source input is mixed.Specifically, by the second soft water path 4 and the water being mixed into water storage device 1 Water quality can influence the water quality of whole water treatment facilities, simultaneously because in water storage device 1 soft water time and number of times difference, from storage The water quality of the water of outflow also has difference in water installations 1, by being monitored in real time to water quality, so that according to different water quality feelings Condition, regulation is by the second soft water path 4 and the water quality of the water being mixed into water storage device 1, so as to reach whole water process The water quality of device.

Further, the control method of above-mentioned water treatment facilities also includes step S104：The 3rd is selected when receiving user During working condition, the first demineralized water treatment device 3 is regenerated, by the water inputted from water source 6 through the first demineralized water treatment device 3 and when will regenerate The waste water discharge of generation.

Optionally, as shown in figure 1, water treatment facilities is additionally provided with discharge outlet 8, the first control valve 5 also includes and discharge outlet 8 The 4th port 54 being connected.When in three working conditions, first port 51 is connected with the 4th port 54, and the first soft water is filled Put 3 to be regenerated, by the water inputted from water source through the first demineralized water treatment device 3 and by the waste water that produces when regenerating or other liquid from arranging Discharge at the mouth of a river 8.

Optionally, as shown in Fig. 2 water treatment facilities is additionally provided with discharge outlet 8 and the 3rd control valve being connected with discharge outlet 8 10, the outlet of the first demineralized water treatment device 3 can be connected with discharge outlet 8.When in first, second working condition, the 3rd control valve The 10 connections outlet of the first demineralized water treatment device 3 and the delivery port 12 of the water storage device 1.Water treatment facilities also has the 3rd work State, i.e., regenerated to the first demineralized water treatment device 3, and when in three working conditions, first port 51 is connected with the 3rd port 53, 3rd control valve 10 connects the outlet of the first demineralized water treatment device 3 and the discharge outlet 8, makes the water inputted from water source 6 soft through first Water installations 3 simultaneously discharge the waste water of generation from discharge outlet 8.

Optionally, as shown in figure 3, water treatment facilities is additionally provided with discharge outlet 8, water treatment facilities also includes and discharge outlet 8 3rd control valve 10 of connection, the outlet of the first demineralized water treatment device 3 can be connected with discharge outlet 8；When in first, second working condition When, the 3rd control valve 10 is closed；When in three working conditions, first port 51 is connected with the 3rd port 53, the 3rd control valve 10 open and the second control valve 9 is closed, and make the water inputted from water source through demineralized water treatment device and by the waste water of generation from the row of discharge outlet 8 Go out.

In above-mentioned multiple embodiments, demineralized water treatment device soft water is identical with the mode of regeneration.

In the description of the present application, it is necessary to explanation, unless otherwise prescribed and limit, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be mechanically connect or electrical connection or the connection of two element internals, can To be to be joined directly together, it can also be indirectly connected to by intermediary, for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term.

Each embodiment in this specification is described by the way of progressive, what each embodiment was stressed be with Between the difference of other embodiment, each embodiment identical similar part mutually referring to.

Above-described embodiment is only to illustrate technical concepts and features of the present utility model, and its object is to allow be familiar with technique Personage can understand content of the present utility model and implement according to this, protection domain of the present utility model can not be limited with this. All equivalent change or modifications made according to the utility model Spirit Essence, should all cover protection domain of the present utility model it It is interior.

Claims (27)

1. a kind of water treatment facilities, including the water storage device with water inlet and delivery port, it is characterised in that the water process dress Putting also includes drive device and at least one first demineralized water treatment device, and the drive device, the first demineralized water treatment device, water storage device can Connection forms the first soft water path, and the first soft water path is circulation waterway, the water inlet energy and water source of the water storage device Connection, the delivery port of the water storage device can be connected with water end (W.E.).

2. water treatment facilities according to claim 1, it is characterised in that the water treatment facilities includes the second soft water road Footpath, the second soft water path can be connected with the water source and with water end (W.E.), and the second soft water path is filled provided with the second soft water Put.

3. water treatment facilities according to claim 1, it is characterised in that the water treatment facilities includes the second soft water road Footpath, the second soft water path can be connected with the water source and with water end (W.E.), the first soft water path and the second soft water path portion Divide overlapping, first demineralized water treatment device is arranged at the second soft water path.

4. water treatment facilities according to claim 1, it is characterised in that the water storage device includes being used for water storage device The heating unit that interior water is heated.

5. the water treatment facilities according to claim 1 or 3, it is characterised in that the water treatment facilities also includes the first control Valve processed, first control valve is connected with the water storage device delivery port, first demineralized water treatment device and with water end (W.E.).

6. water treatment facilities according to claim 5, it is characterised in that first control valve at least includes and described the The first port of one demineralized water treatment device connection, the second port that is connected with the water storage device delivery port and use water end (W.E.) with described The 3rd port being connected；

When in the first working condition, the first port is connected with the second port；

When the first sub- working condition in the second working condition, the first port, the second port and the described 3rd Port is connected.

7. water treatment facilities according to claim 6, it is characterised in that when the second son work in the second working condition During state, the first port is connected with the 3rd port.

8. water treatment facilities according to claim 7, it is characterised in that when the 3rd son work in the second working condition During state, the second port is connected with the 3rd port.

9. water treatment facilities according to claim 6, it is characterised in that the water treatment facilities is additionally provided with discharge outlet, First control valve also includes the 4th port being connected with the discharge outlet, when in three working conditions, described first Port is connected with the 4th port.

10. water treatment facilities according to claim 3, it is characterised in that the water treatment facilities also includes the first control Valve, first control valve is entered with the water storage device delivery port, the water storage device water inlet and first demineralized water treatment device The mouth of a river is connected.

11. water treatment facilities according to claim 10, it is characterised in that first control valve at least include with it is described First port that water storage device water inlet is connected, the second port being connected with the water storage device delivery port, with described the The 3rd port that the entrance of one demineralized water treatment device is connected；The outlet of the demineralized water treatment device is connected with the water storage device delivery port It is logical.

12. water treatment facilities according to claim 11, it is characterised in that when in the first working condition, described first Port is connected with the 3rd port；

When the first sub- working condition in the second working condition, the first port, the 3rd port connection.

13. water treatment facilities according to claim 12, it is characterised in that when the 3rd sub- work in the second working condition When making state, the first port, the second port, the 3rd port disconnect.

14. water treatment facilities according to claim 13, it is characterised in that when the 4th sub- work in the second working condition When making state, the first port, second port connection.

15. water treatment facilities according to claim 11, it is characterised in that the water treatment facilities is additionally provided with draining Mouthful, the water treatment facilities also includes the 3rd control valve being connected with the discharge outlet, the outlet energy of first demineralized water treatment device Connected with discharge outlet；

When in first, second working condition, the 3rd control valve connects the first demineralized water treatment device outlet and the water storage The delivery port of device；

When in three working conditions, the first port is connected with the 3rd port, and the 3rd control valve connection is described First demineralized water treatment device is exported and the discharge outlet.

16. water treatment facilities according to claim 10, it is characterised in that first control valve at least include with it is described First port that water storage device water inlet is connected, the second port being connected with the water storage device delivery port, with described the The 3rd port that the entrance of one demineralized water treatment device is connected；Between the water storage device delivery port and the outlet of the first demineralized water treatment device It is additionally provided with the second control valve；

When in the first working condition, the first port is connected with the 3rd port, and second control valve is opened；

The first sub- working condition when in the second working condition, the first port, the second port and the 3rd port Connection and second control valve closing；Or the first port is connected with the 3rd port and second control valve is opened.

17. water treatment facilities according to claim 16, it is characterised in that when the second son in the second working condition During working condition, the first port is connected with the 3rd port and second control valve is closed.

18. water treatment facilities according to claim 17, it is characterised in that when the 3rd sub- work in the second working condition When making state, first, second, third port is disconnected and second control valve is opened.

19. water treatment facilities according to claim 18, it is characterised in that when the 4th sub- work in the second working condition When making state, the first port is connected with the second port and second control valve is opened.

20. water treatment facilities according to claim 19, it is characterised in that when the 5th sub- work in the second working condition When making state, the second port is connected with the 3rd port and second control valve is closed.

21. water treatment facilities according to claim 16, it is characterised in that the water treatment facilities is additionally provided with draining Mouthful, the water treatment facilities also includes the 3rd control valve being connected with the discharge outlet, and the outlet of the demineralized water treatment device can be with row The mouth of a river is connected；

When in first, second working condition, the 3rd control valve is closed；

When in three working conditions, the first port is connected with the 3rd port, and the 3rd control valve is opened and the Two control valves are closed.

22. water treatment facilities according to claim 1, it is characterised in that the water treatment facilities also includes being arranged on institute State the water quality acquisition device in circulation waterway；

When in the first working condition, according to the water quality result of the acquisition of the water quality acquisition device, the water storage device is controlled In water circulation pass through first demineralized water treatment device parameter preset.

23. water treatment facilities according to claim 22, it is characterised in that the water quality acquisition device is TDS testers.

24. water treatment facilities according to claim 22, it is characterised in that the water quality acquisition device passes through to described soft Electrode applies alive mode measurement and obtains water quality condition in the circulation waterway in water installations.

25. water treatment facilities according to claim 22, it is characterised in that be provided with electron anode in the water storage device Rod, water quality acquisition device obtains water quality in the circulation waterway according to alive mode measurement is applied in the Electronic anode rod State.

26. water treatment facilities according to claim 22, it is characterised in that the demineralized water treatment device includes at least one pair of electricity Pole, the water treatment facilities also includes the voltage controller for controlling the voltage swing of the electrode.

27. water treatment facilities according to claim 1, it is characterised in that the demineralized water treatment device at least includes ion exchange Film, ion exchange resin, Electro Sorb, electrolysis are from the one of which in film, capacitive deionization.