CN208586129U - Water purifier - Google Patents
Water purifier Download PDFInfo
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- CN208586129U CN208586129U CN201820821010.5U CN201820821010U CN208586129U CN 208586129 U CN208586129 U CN 208586129U CN 201820821010 U CN201820821010 U CN 201820821010U CN 208586129 U CN208586129 U CN 208586129U
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Abstract
The application discloses a kind of water purifier.Wherein, the water purifier, comprising: filter mechanism;The filter mechanism has original water inlet, filtering water outlet and wastewater outlet;The flushing machine that can be connected with the original water inlet;The flushing machine can rinse the filter mechanism;The recovering mechanism that can be connected with the wastewater outlet;The recovering mechanism can recycle the water that the wastewater outlet is discharged when the filter mechanism is rinsed in storage.Water purifier provided by the present application can be effectively reduced the TDS that water purifier is discharged in booting, and promote water purifier water effect.
Description
Technical field
This application involves water purification field more particularly to a kind of water purifiers.
Background technique
For existing water purifier, especially big flow without bucket water purifier, filled in use by reverse osmosis membrane
It sets the raw water for flowing into raw water mouth to be filtered, crosses drainage and flowed out from the filtering mouth of a river, waste water is discharged from waste water mouth.At water purifier
During being not used, the waste water of concentration rests on always the waste water of the reverse osmosis membrane of filtration in reverse osmosis membrane apparatus
Side, after reaching a certain level the time, salinity or other soluble solids in waste water will permeate reverse osmosis membrane and then reach
Reverse osmosis membrane crosses drainage side.In this way, when water purifier is again in use process, what which flowed out when beginning to use
The total dissolved solidss (TDS) of first glass of drainage excessively are higher, and the quality that may cause this glass drainage excessively is relatively low, not pure enough.
It gives up to solve the above problems, passing through drainage or raw water in some water purifiers after water processed to reverse osmosis membrane
Water side is rinsed, so that waste water side is full of raw water or crosses drainage, to reduce the TDS being discharged after booting.But flushed
Water purifier causes water purifier water effect lower still in lasting discharge water in journey.
In addition, water is still persistently discharged in water purifier after user's shutdown, it is easy that user is caused to reduce and use using puzzlement
Experience.
Utility model content
In order to overcome the drawbacks described above of the prior art, the utility model is it is necessary to provide a kind of water purifier, with can be effective
The TDS that water purifier is discharged in booting is reduced, and promotes water purifier water effect.
The technical solution of the application is as follows:
A kind of water purifier, comprising:
Filter mechanism;The filter mechanism has original water inlet, filtering water outlet and wastewater outlet;
The flushing machine that can be connected with the original water inlet;The flushing machine can rinse the filter mechanism;
The recovering mechanism that can be connected with the wastewater outlet;The recovering mechanism can recycle storage and rinse the filtering
The water that the wastewater outlet is discharged when mechanism.
As a preferred embodiment, the wastewater outlet is communicated with waste outflow pipe;The wastewater discharge pipe
Road is equipped with waste water waste cock;The flushing machine rinses the waste water waste cock when filter mechanism and closes.
As a preferred embodiment, the recovering mechanism can also be connected with the original water inlet;The recycling
It supplies water when mechanism difference from the wastewater outlet recycle-water and to the original water inlet.
As a preferred embodiment, the flushing machine includes the first receiving space for stored filter water;
It supplies water when the first receiving space difference to the original water inlet and inputs water from the filtering water outlet;It is described to cross drainage
Outlet has the filtering water delivery pipe road being connected with water end (W.E.);The first receiving space and the filtering water delivery pipe road
It is connected.
As a preferred embodiment, the wastewater outlet is connected by first pipe with the original water inlet;
The first pipe is equipped with the first valve member;
The first pipe is in the waste water for flowing out the wastewater outlet when crossing drainage for producing the first receiving space
It is input to the original water inlet.
As a preferred embodiment, the waste outflow pipe and the first pipe common sparing pipeline;It should
Common sparing pipeline is equipped with waste water proportioner, alternatively, the non-common part of the waste outflow pipe is equipped with waste water ratio
Device.
As a preferred embodiment, the waste water proportioner is parallel with electromagnetic switch valve.
As a preferred embodiment, the recovering mechanism includes accommodating sky for storing the second of flushing waste water
Between;The first receiving space is not connected to mutually with second accommodation space, also, the volume of second accommodation space and institute
The volume for stating first receiving space is negatively correlated.
As a preferred embodiment, also having booster pump;The water outlet of the booster pump and the original water inlet
Connection;The first pipe is connected with the water inlet of the booster pump, and then is connected with the original water inlet.
As a preferred embodiment, second accommodation space passes through the water inlet of second pipe and the booster pump
Mouth is connected;Also, second accommodation space is connected to the first pipe by the second pipe, to go out with the waste water
Mouth is connected.
As a preferred embodiment, the water inlet of the booster pump is connected with raw water input channel;
The first pipe, the second pipe are connected to by the first tie point with the raw water input channel;
Raw water input channel is equipped with the second valve member in the downstream of first tie point.
As a preferred embodiment, the filtering water delivery pipe road passes through third pipeline and the raw water input pipe
Road is connected;Second tie point of the third pipeline and the raw water input channel is located at second valve member and described
Between booster pump;
It is unidirectional that the filtering water delivery pipe road is in series with first between second tie point and the filtering water outlet
Valve;
The third pipeline and it is described filtering water delivery pipe road third tie point be located at the filtering water outlet with it is described
Between first receiving space;The third pipeline is equipped with third valve member;
The filtering water outlet, the first receiving space can be connected through the third pipeline with the original water inlet,
It is rinsed with inputting drainage to the original water inlet.
As a preferred embodiment, also having booster pump;
The water inlet of the booster pump is communicated with the first filter assemblies with the first receiving space;
The first receiving space can also be described useless when the filter mechanism is rinsed in recycling storage after crossing drainage discharge
The water that water out is discharged, to form the recovering mechanism.
As a preferred embodiment, the water inlet of the booster pump is connected to raw water input channel;First mistake
Filter component is series on the raw water input channel;The first pipe and the 4th tie point of the raw water input channel are located at
Between first filter assemblies and the booster pump.
As a preferred embodiment, the water inlet end of first filter assemblies passes through the 4th pipeline and the waste water
Outlet is connected;4th pipeline is equipped with third valve member;
4th pipeline and the first pipe common sparing pipeline;The third valve member is located at the common sparing
The downstream of pipeline;First valve member is located at the downstream of the common sparing pipeline.
As a preferred embodiment, the water inlet end of first filter assemblies also passes through described in the connection of the 5th pipeline
Filtering water outlet;5th pipeline is equipped with the 5th valve member.
As a preferred embodiment, the filtering water outlet also passes through the water inlet of the 6th pipeline and the booster pump
Mouth connection;6th pipeline is equipped with the 6th valve member;6th pipeline and the 5th pipeline common sparing pipeline;
5th valve member is located at the downstream of the common sparing pipeline;6th valve member is located at the common sparing pipeline
Downstream.
As a preferred embodiment, second accommodation space is series in the first pipe;Described first
Valve member is located at the downstream of second accommodation space;The waste outflow pipe of non-common part is connected to described first
Between valve member and second accommodation space.
As a preferred embodiment, the first receiving space passes through the water inlet of the 7th pipeline and the booster pump
Mouth is connected;7th pipeline is equipped with the 7th valve member;7th pipeline is in charge of with the first pipe common portion
Road;7th valve member is located at the upstream of the common sparing pipeline.
As a preferred embodiment, the first receiving space passes through the 8th pipeline and the filtering water delivery pipe
Road is connected;8th pipeline is equipped with second one-way valve.
As a preferred embodiment, the water purifier has water pocket component;The water pocket component has accommodating empty
Between and positioned at the accommodating space water pocket;The inside of the water pocket forms the first receiving space;Outside the water pocket
Portion forms the second accommodation space.
A kind of control method of water purifier, the water purifier have filter mechanism, the filter mechanism have original water inlet,
Filtering water outlet and wastewater outlet;The control method of the water purifier includes:
Rinse the filter mechanism of the water purifier;
The recycling storage water that the wastewater outlet is discharged when rinsing the filter mechanism.
As a preferred embodiment, further include:
When rinsing the filter mechanism, waste water is not discharged in the water purifier.
As a preferred embodiment, further include:
The water of recycling storage is input in the filter mechanism and produces flushed drainage;
Correspondingly, the filter mechanism for rinsing the water purifier includes: to rinse the filter using the flushed drainage
Structure.
As a preferred embodiment, producing the flushed drainage of the first predetermined time;And rinse second
The filter mechanism of predetermined time.
Washing and filtering is produced as a preferred embodiment, the water of recycling storage is input in the filter mechanism
When water, waste water is not discharged and drainage was not discharged for the water purifier.
As a preferred embodiment, the filter mechanism for rinsing the water purifier includes:
When rinsing the filter mechanism, the drainage of crossing of the filtering water outlet discharge rinses together with the flushed drainage
The filter mechanism.
As a preferred embodiment, further include:
The water of recycling storage is discharged from the water purifier.
As a preferred embodiment, the water purifier has storing mechanism;The control method further include:
Water in storing mechanism is input in the filter mechanism and produces flushed drainage;
Correspondingly, the filter mechanism for rinsing the water purifier includes and the recycling storage flushing filter
The water that the wastewater outlet is discharged when structure includes:
The filter mechanism is rinsed using the flushed drainage;
The water that the wastewater outlet is discharged when the filter mechanism is rinsed in storage is recycled using the storing mechanism.
The utility model has the advantages that
Water purifier in the application utilizes the raw water of flushing machine introducing by being equipped with flushing machine and recovering mechanism
And/or cross drainage and from original water inlet flow directly into wastewater outlet, filter mechanism original water inlet is originally remained in useless to push
Simultaneously it is discharged inside filter mechanism for the higher water of concentration (waste water) of water out (waste water side), so that in filter mechanism
(filter membrane) waste water side remains in as raw water and/or crosses drainage, thus guarantee to be produced when water purifier is just switched on water processed
Crossing TDS in drainage will not be higher, promotes drinking water quality.
Meanwhile the water purifier in the application is additionally provided with recovering mechanism, recovering mechanism will flow out the flushing waste water of wastewater outlet
It being recycled, flushing waste water after the recovery can rinse and produce drainage, and avoid the partial flushing waste water from being discharged waste, thus
Water purifier water effect can be promoted.
In addition, first valve member of the water purifier in the application in first pipe can control flushing speed, make to rush
Wash better effect.
In addition, in this application, shutting down is more than the predetermined time, water purifier will restart auto-flushing to guarantee the TDS that is switched on
It is low.Meanwhile once flushing waste water will be discharged after having rinsed certain number or preset time in the application water purifier, to avoid mistake
The waste water of high concentration influences the service life of film or reduces the effect of TDS.
Referring to following description and accompanying drawings, the particular implementation of the utility model is disclosed in detail, specifies practical
Novel principle can be in a manner of adopted.It should be understood that the embodiments of the present invention in range not thus by
Limitation.In the range of the spirit and terms of appended claims, the embodiments of the present invention includes many changes, modifications
With it is equivalent.
The feature for describing and/or showing for a kind of embodiment can be in a manner of same or similar one or more
It uses in a other embodiment, is combined with the feature in other embodiment, or the feature in substitution other embodiment.
It should be emphasized that term "comprises/comprising" refers to the presence of feature, one integral piece, step or component when using herein, but simultaneously
It is not excluded for the presence or additional of one or more other features, one integral piece, step or component.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment
Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
It is some embodiments of the utility model, for those skilled in the art, without any creative labor,
It is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of water purifier of embodiment offer of the application normally water hydrographic chart processed;
Fig. 2 is that Fig. 1 produces flushed drainage hydrographic chart;
Fig. 3 is the washing and filtering mechanism hydrographic chart of Fig. 1;
Fig. 4 is the normal water hydrographic chart processed of water purifier that the application another embodiment provides;
Fig. 5 is that Fig. 4 produces flushed drainage hydrographic chart;
Fig. 6 is the washing and filtering mechanism hydrographic chart of Fig. 4;
Fig. 7 is the normal water hydrographic chart processed of water purifier that the application another embodiment provides;
Fig. 8 is that Fig. 7 produces flushed drainage hydrographic chart;
Fig. 9 is the washing and filtering mechanism hydrographic chart of Fig. 7.
Specific embodiment
In order to make those skilled in the art more fully understand the technical solution in the utility model, below in conjunction with this reality
With the attached drawing in new embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that
The described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.Based on the utility model
In embodiment, those of ordinary skill in the art's every other implementation obtained without making creative work
The range of the utility model protection all should belong in example.
It should be noted that it can directly on the other element when element is referred to as " being set to " another element
Or there may also be another elements placed in the middle.When an element is considered as " connection " another element, it be can be directly
It is connected to another element in succession or may be simultaneously present another element placed in the middle.Term as used herein " vertically ", " water
It is flat ", "left", "right" and similar statement for illustrative purposes only, be not meant to be the only embodiment.
Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model
The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be
The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein "and/or" packet
Include any and all combinations of one or more related listed items.
Please refer to Fig. 1-Fig. 9.A kind of water purifier is provided in the application embodiment, comprising: filter mechanism 5;The filtering
Mechanism 5 has original water inlet, filtering water outlet and wastewater outlet;The flushing machine that can be connected with the original water inlet;Institute
The filter mechanism 5 can be rinsed by stating flushing machine;The recovering mechanism that can be connected with the wastewater outlet;The recovering mechanism
The water that the wastewater outlet is discharged when the filter mechanism 5 is rinsed in storage can be recycled.
A kind of control method of water purifier is also provided in the application embodiment.Wherein, the water purifier has filter
Structure 5, the filter mechanism 5 have original water inlet, filtering water outlet and wastewater outlet.The control method packet of the water purifier
It includes step: rinsing the filter mechanism 5 of the water purifier;And the wastewater outlet when filter mechanism 5 is rinsed in recycling storage
The water being discharged.
In the application embodiment, the flushing machine can use raw water and/or cross drainage washing filter structure 5.
Wherein, for the water purifier when being in normal boot-strap water state, the filter mechanism 5 of water purifier can flow into water by original water inlet
(water can be the raw water that upstream is transmitted, such as tap water, or the raw water after prefilter component filters;Also
Can be other water, such as the water that is recycled of recovering mechanism), and the water is filtered to form drainage, drainage is crossed then from mistake
Filtered water outlet discharge, correspondingly, the waste water (or concentrated water) that filter mechanism 5 generates then is flowed out from wastewater outlet.Wherein, from raw water into
For mouth to wastewater outlet, the TDS concentration of water is increasing.
In water purifier not water processed, to avoid the waste water side of filter membrane (also referred to as diaphragm) of filter mechanism 5 from (going out with waste water
Mouthful communicate side) concentrated water in ion penetrate through filter membrane and entered drainage side, and cause after booting to cross drainage TDS dense
Raising problem is spent, water purifier enters cleaning model.Rinse water (raw water and/or excessively drainage) was input to by flushing machine operation
The original water inlet of filter structure 5 is rinsed filter mechanism 5 by raw water and/or mistake drainage.At this point, drainage was not discharged in water purifier,
But it is not intended to limit whether filtering water outlet is discharged.
Wherein, the raw water and/or mistake drainage that flushing machine introduces flow directly into wastewater outlet from original water inlet, to push
5 original water inlet of filter mechanism is originally remained in the higher water of concentration (waste water) of wastewater outlet (waste water side) and by it from filtering
It is discharged inside mechanism 5, so that remaining in (filter membrane) the waste water side of filter mechanism 5 as raw water and/or crossing drainage.
As in this case, waste water side and cross drainage side be drainage or for raw water, cross drainage, water at waste water side
TDS is smaller, thus in the process of water not processed or stopping process waste water side water on cross drainage side cross drainage TDS influence compared with
It is small, and then guarantee that TDS will not be higher in the drainage excessively produced when water purifier is just switched on water processed, promotes drinking water quality.
Meanwhile the water purifier in present embodiment is additionally provided with recovering mechanism, recovering mechanism will flow out the flushing of wastewater outlet
Waste water is recycled, and flushing waste water after the recovery can rinse and produce drainage, and the partial flushing waste water is avoided to be discharged waste,
So as to promote water purifier water effect.
Please continue to refer to Fig. 1-Fig. 9.The water that recovering mechanism is discharged when can be by washing and filtering mechanism 5 recycles storage, to mention
Rise water purifier water effect.When washing and filtering mechanism 5, the water that the wastewater outlet of filter mechanism 5 is exported is properly termed as flushing waste water, with
With filter mechanism 5 normally water processed when the waste water that is formed mutually distinguish.In this embodiment, the filter mechanism is rinsed in recycling storage
The water that the wastewater outlet is discharged when 5, namely are as follows: the flushing waste water that the filter mechanism 5 is discharged is rinsed in recycling storage.
When flushing waste water being recycled storage while water purifier passes through recovering mechanism in washing and filtering mechanism 5, the recycling
Whole (flushing) water that mechanism filter mechanism 5 can be discharged, which flows back, to be stored, and partial flushing return of waste water can also be stored, this
When partial flushing waste water can be discharged from waste outflow pipe 200.Preferably, recovering mechanism can be by whole flushing waste waters
Recycling, so that washing and filtering mechanism 5 does not influence water purifier water effect.
Schematic quality is exemplified as, which can form the closed loop water route of circulation with filter mechanism 5 when rinsing
(can connect other assemblies on the water route, such as the water booster pump 4 for driving water route to run), at this time gives up whole flushings
Water recycling storage.In addition, the recovering mechanism and filter mechanism 5, waste outflow pipe 200 (have multifunctional electromagnetic valves, combination thereon
Solenoid valve has the function of throttling and on-off.Specifically, the multifunctional electromagnetic valves may include electromagnetic switch valve 15 in parallel and give up
Water proportioner 8.), at this time by the throttling action of the waste water proportioner 8 on multifunctional electromagnetic valves, thus by Partial filtration mechanism 5
Flushing waste water is recovered mechanism recycling, and partial flushing waste water is discharged outside water purifier by waste outflow pipe 200.
In embodiments, the filter mechanism of the second predetermined time can be rinsed, to pass through control washing time
Come washing and filtering mechanism.Specifically, rinsing the filter mechanism 5 of the water purifier can stop down to the second predetermined time, correspondingly,
The recycling storage water that the wastewater outlet is discharged when rinsing the filter mechanism 5 also stops immediately.Washing and filtering mechanism 5 can be with
The operation for controlling booster pump 4 (or continuity duration of the place state of respective valves switch) is realized.
For the promotion for guaranteeing water effect, in washing and filtering mechanism 5, waste water is not discharged in the water purifier.Specifically, described useless
Water out is communicated with waste outflow pipe 200.Waste water waste cock 9 can be equipped on the waste outflow pipe 200.The punching
Washing machine structure rinses the waste water waste cock 9 when the filter mechanism 5 and closes.For convenient for automatic control, the waste water waste cock 9
It can be electromagnetic switch valve.
To avoid that drainage was still discharged after water purifier shuts down, when rinsing the filter mechanism 5, the water purifier is not arranged
Drainage is crossed out.Correspondingly, the filtering water outlet is connected with filtering water delivery pipe road 300, the end in the filtering water delivery pipe road 300
End is connected to useful water end (W.E.), such as: tap, shower etc..At this point, tap of water purifier etc. is in water end (W.E.) equipment closes shape
State.Certainly, at filtering close the water end (W.E.) in water delivery pipe road 300 equipped with (being may include tap or use water power with water valve 7
Magnet valve), in washing and filtering mechanism 5, this is in close state with water valve 7.
As can be seen that drainage was neither discharged in the water purifier, waste water was not also discharged, not shadow in washing and filtering mechanism 5
The whole water effect of (not reducing) water purifier is rung, while can preferably reduce booting TDS again.
In the present embodiment, the concentrated water between original water inlet and wastewater outlet can be replaced with raw water by flushing machine
And/or drainage is crossed, the concentrated water that 5 Central Plains of filter mechanism retains is discharged from wastewater outlet, so that the waste water side or raw water side of filter membrane
Contact is raw water and/or crosses drainage rather than concentrated water.The water that 5 Central Plains of filter mechanism retains can be straight after wastewater outlet discharge
It connects and is expelled to recovering mechanism through default pipeline, thus water processed again after powering.
In the application embodiment, flushing machine can use raw water and be rinsed to filter mechanism 5, so that filter
The waste water side of structure 5 is full of raw water.Flushing machine also can use drainage and be rinsed to filter mechanism 5, so that filter mechanism 5
Waste water side be full of drainage.In addition, flushing machine also can use raw water and cross the mixing water of drainage to the progress of filter mechanism 5
It rinses, so that the waste water side of filter mechanism 5 is full of mixing water.In view of crossing the TDS in drainage for raw water, mixing water
Content is minimum, waste water side can be made to be full of drainage, and then the waste water of filter mechanism 5 by crossing drainage washing filter structure 5
Side and drainage side excessively were drainage, and the water quality that water side is filtered during water purifier is shut down hardly happens change, so as to
Guaranteed the water quality of drainage side to greatest extent.
In a preferable embodiment, flushing machine can utilize drainage to be rinsed filter mechanism 5.Wherein,
Drainage is crossed used in flushing machine can cross drainage (being referred to as pure water) for what the filter mechanism 5 filtering was formed,
It can be formed by other filter assemblies (such as nanofiltration membrane component, ultrafiltration membrane elements, micro-filtration membrane element ion membrane component etc.)
Cross drainage.
In view of in washing and filtering mechanism 5, the operation of booster pump 4 is formed by hydraulic pressure can be in the filtering of filter mechanism 5
Water side forms a certain amount of drainage excessively.To utilize the Partial filtration water, promotion water purifier water is imitated, when rinsing the filter mechanism 5,
The drainage of crossing of the filtering water outlet discharge rinses the filter mechanism 5 together with the flushed drainage.
Preferably, to be identical with the water quality of drainage side two sides is crossed convenient for 5 waste water side of filter mechanism, the flushing machine is to utilize
The drainage of crossing of the generation of filter mechanism 5 rinses filter mechanism 5 for preferred scheme.For the filtering water phase area used with user
Point, the drainage of crossing for washing and filtering mechanism 5 is properly termed as " flushed drainage ".Correspondingly, following first receiving spaces 12 are used
In the flushed drainage of receiving.
Specifically, the flushing machine may include the first receiving space 12 for crossing drainage for storing (flushing).It is described
It supplies water when first receiving space 12 is different to the original water inlet and inputs water from the filtering water outlet.Wherein, the mistake
Filtered water outlet can be communicated with the filtering water delivery pipe road 300 being connected with water end (W.E.).The first receiving space 12 with it is described
Filtering water delivery pipe road 300 is connected.
In this embodiment, the first receiving space 12 of flushing machine is communicated with filtering water outlet, can so be passed through
What filter structure 5 was produced crosses drainage and inputted drainage into first receiving space 12.Wherein, water purifier can be to user's water end (W.E.)
While exporting drainage, the moisturizing into first receiving space 12.At this point, the filtering that filter mechanism 5 is exported by filtering water outlet
Water section transfers to user's water end (W.E.), partially transfers to first receiving space 12.
In addition, for the water consumption for avoiding influencing user's water end (W.E.), water purifier be can have individually to first receiving space
The Water supplement pattern (or moisturizing time) of drainage was inputted in 12.Under the Water supplement pattern, filtering that filter mechanism 5 will be produced normally
Water is fully entered to first receiving space 12.The Water supplement pattern can stop being run with after water in user, not interfere user
Normal use.
When needing washing and filtering mechanism 5, first receiving space 12 is connected with the original water inlet of filter mechanism 5, and will
Its flushed drainage stored is input in filter mechanism 5 through original water inlet.It is carried out after water processed in view of rinsing, described the
It supplies water when one accommodation space 12 is different to the original water inlet of the filter mechanism 5 and inputs water from filtering water outlet.
For the flushing waste water that effective use recovering mechanism is recycled, the water of washing and filtering mechanism 5 is recycled completely, is kept away
The waste of flushing-free waste water, so as to effectively promote water purifier water effect.The recovering mechanism can also be with the original water inlet phase
Connection.Wherein, it supplies water to the original water inlet and when the recovering mechanism difference from the wastewater outlet recycle-water.
Wherein, when recovering mechanism is connected with original water inlet, filter mechanism 5 may be at producing filtering water state, the mistake
Drainage can be used for user's use, namely be exported by water purifier.In addition, this, which crosses drainage, can be used for washing and filtering mechanism 5,
Flushed drainage is formed by water purifier itself storage, to reduce the TDS of booting water outlet.
In preferred embodiment, the water of recycling storage is input in the filter mechanism 5 and produces washing and filtering by water purifier
Water;Also, the filter mechanism 5 of the water purifier is rinsed using the flushed drainage, to not influence water purifier entirety water effect.
In this embodiment, the water of recycling storage is input in the filter mechanism 5 and produces flushed drainage to first pre- by water purifier
It fixes time stopping, stopping when can also reaching predetermined amount, for example, the water of recycling storage is to be used up.
In embodiment as shown in Figure 4-Figure 6, it is contemplated that flushed drainage and the flushing water of recycling share same sky
Between, to avoid flushed drainage and flushing water or the mutual crossfire of raw water, and influence flushed drainage water quality.System in the embodiment
It takes flushed drainage step and 5 step of washing and filtering mechanism that can control by the time, namely produced for the first predetermined time
The flushed drainage and, rinse the second predetermined time the filter mechanism.
In the application embodiment, the water of recycling storage can be input in the filter mechanism 5 by the water purifier
Produce flushed drainage.The flushing waste water that recovering mechanism is recycled can be re-used, and produce flushed drainage.Producing punching
When washing drainage, waste water can be discharged in water purifier, guarantee that flushed drainage has lower TDS.Correspondingly, water purifier is in Jiang Chong
Raw water can be inputted while washing waste water input filter mechanism 5, raw water is inputted together with flushing waste water in filter mechanism 5 and is produced
Flushed drainage.
In embodiments, to promote water effect, the water of recycling storage is input in the filter mechanism 5 and produces by water purifier
When flushed drainage, waste water is not discharged and drainage was not discharged for the water purifier.So influence producing flushed drainage not
The water of water purifier is imitated, and the TDS of flushed drainage is lower, meets the requirement for reducing booting TDS.
Specifically, filter mechanism 5 can also be weighed by the waste water that wastewater outlet is discharged while producing flushed drainage
Newly filter mechanism 5 is input to be utilized.To realize the discharge of water purifier zero waste water when producing flushed drainage.Water purifier is by institute
It states the waste water that flushing waste water and filter mechanism 5 export and is input in the filter mechanism 5 together and produce flushed drainage.
As shown in figs. 1-9.In the particular embodiment, the wastewater outlet can by first pipe 400 with it is described
Original water inlet is connected;The first pipe 400 is equipped with the first valve member 10 (Fig. 1-Fig. 3 is known as return valve).Wherein, institute
It states first pipe 400 and is producing being input to the waste water that the wastewater outlet flows out when crossing drainage of the first receiving space 12
The original water inlet.
In this embodiment, first valve member 10 normally water processed when closing, shut down (user stops with water) make afterwards
It takes and is opened when flushed drainage and washing and filtering mechanism 5 to promote water effect.First valve member 10 can be electromagnetic switch
Valve, or electromagnetic switch valve is connected in series with check valve combines formation, wherein can prevent liquid from returning by the check valve
Stream.
In addition, the first valve member 10 also can have throttling function, is flowed back with control and rinse speed, make flushing effect more
It is good.Specifically, the first valve member also may include concatenated throttle valve, electromagnetic switch valve.It is flowed back and is rushed by throttle valve control
Speed is washed, the on-off of first pipe 400 is realized by electromagnetic switch valve, and then realizes control washing and filtering mechanism or produces flushing
Cross the progress of drainage.
In the present embodiment, first pipe 400 can be individual pipeline, can also with a variety of pipeline common conduits, or
Person combines to be formed by the section of tubing of a variety of pipelines, the application and with no restriction.Correspondingly, other pipelines in the application,
It equally can be individual pipeline, it can also be with a variety of pipeline common conduits, or the section of tubing combination for passing through a variety of pipelines
It is formed, the application and with no restriction.
To save cost, while not influencing using effect.As a preferred option, the waste outflow pipe 200 and institute
State 400 common sparing pipeline of first pipe.In such as Fig. 4-embodiment shown in Fig. 9, it can be equipped on the common sparing pipeline
Waste water proportioner 8 (is referred to as waste water ratio).That is, waste water proportioner 8 is set to the common sparing of waste outflow pipe 200
Pipeline.Waste water of the filter mechanism 5 during water processed is controlled by waste water proportioner 8, ratio is discharged, to guarantee water purifier water
Effect, normally produced drainage.First valve member 10 is set to the downstream of the common sparing pipeline of first pipe 400, that is,
First valve member 10 is located at the not common sparing of first pipe 400.
In addition, as shown in Figure 1-Figure 3, the non-common part of the waste outflow pipe is equipped with waste water proportioner 8.This
When, speed is rinsed for control, the first valve member 10 can have throttling action, and description of continuing from the preceding paragraph, the first valve member can
To include concatenated throttle valve, electromagnetic switch valve 15.Waste water proportioner can be parallel with electromagnetic switch valve 15, form combination electromagnetism
Valve.
In this embodiment, the electromagnetic switch valve 15 in parallel of waste water proportioner 8 is it is possible to prevente effectively from recovering mechanism returns
The flushing waste water of receipts causes TDS excessively high because recycling.In one embodiment, which can be by recycling storage
Water is discharged from the water purifier.Wherein, the flushing waste water which can be stored recovering mechanism after the predetermined time from
Water purifier discharge, for example, every 10 days discharge once flushing waste water.Alternatively, will recycling when the TDS of flushing waste water reaches predetermined value
The flushing waste water that mechanism is stored is discharged from water purifier.Specifically, in the flushing water discharge that will be recycled, by the electromagnetic switch valve
15 open, and closing the first valve member 10, the water of recycling storage can be discharged from water purifier.
It can be seen that in the present embodiment, it will after the certain number of water purifier washing and filtering mechanism 5 or preset time
Once flushing waste water is discharged, the waste water to avoid excessive concentrations influences the service life of film or reduces the effect of TDS.
As shown in figs. 1-9.Waste water waste cock 9 can also be in series on waste outflow pipe 200.It is flushed producing
When drainage, recycling flushing waste water, washing and filtering mechanism 5, waste outflow pipe 200 is closed.In the normal water (user processed of water purifier
With water) when, the waste water waste cock 9 of waste outflow pipe 200 is opened, and water purifier is discharged in waste water.
In a specific embodiment, the recovering mechanism includes the second accommodation space for storing flushing waste water
13.To avoid flushing waste water and the mutual crossfire of flushed drainage, flushed drainage water quality, 12 He of first receiving space are influenced
Second accommodation space 13 is not connected to mutually.
Further, filter mechanism 5, second accommodation space be can smoothly enter into for the water in guarantee first receiving space 12
The volume of 13 volume and the first receiving space 12 is negatively correlated.Specifically, the water purifier has water pocket component 14.It is described
Water pocket component 14 has accommodating space and the water pocket positioned at the accommodating space.The water pocket component 14 passes through water pocket for first
Accommodation space 12 and the second accommodation space 13 are separately.
Wherein, the inside of the water pocket forms the first receiving space 12;The external of the water pocket forms the second receiving
Space 13.Flushing machine and recovering mechanism can so be integrated, improve level of integrated system.Second accommodation space 13 and institute
The total volume for stating first receiving space 12 can be kept constant.
Pass through the volume (body of the second accommodation space 13 of increase when crossing drainage using 13 additional discharge of the second accommodation space
Product) so that the volume of first receiving space 12 reduces, thus by drainage discharge is crossed in first receiving space 12.Correspondingly,
The volume of first receiving space 12 was gradually increased when first receiving space 12 inputs drainage, at this time the appearance of the second accommodation space 13
Product is corresponding to be reduced.Volume can be increased or reduced by input and output flushing waste water in second accommodation space 13.
In the application embodiment, the water purifier also has booster pump 4.The water outlet of the booster pump 4 with it is described
Original water inlet connection.The first pipe 400 is connected with the water inlet of the booster pump 4, so with the original water inlet phase
Connection.Wherein, booster pump 4 is in washing and filtering mechanism 5 and to produce drainage (include: that just common water crosses drainage, flushed
Drainage) when can be pressurized for water, to promote 5 efficiency of washing and filtering mechanism.
Certainly, the upstream of water pump can also be in series with other mechanisms, such as prefilter mechanism 2 (such as above-mentioned pretreatment
Filter core, scale inhibition filter core), do not make special limit in the present embodiment.In one embodiment, the upstream tandem of water pump has scale inhibition
Filter core (one kind of prefilter mechanism 2), inlet valve 1.The all parts for preventing downstream by the scale inhibition filter core (for example filter
Mechanism 5 and pipeline) fouling.The input of raw water is controlled by inlet valve 1.
Please refer to Fig. 1-Fig. 3.Second accommodation space 13 passes through the water inlet of second pipe 500 and the booster pump 4
It is connected.Also, second accommodation space 13 is connected to the first pipe 400 by the second pipe 500, with it is described
Wastewater outlet is connected.The water inlet of the booster pump 4 is connected with raw water input channel 100.It is the first pipe 400, described
Second pipe 500 is connected to by the first tie point 22 with the raw water input channel 100.Raw water input channel 100 is described
The downstream of one tie point 22 is equipped with the second valve member 3.Second valve member 3 can be switch valve.Raw water input channel 100
Scale inhibition filter core can be in series in the upstream of the first tie point 22.
Wherein, the first receiving space 12 can be realized not by the first valve member 10 of control, the second valve member 3
It supplies water simultaneously to the original water inlet of the filter mechanism 5 and inputs water from the filtering water outlet, to realize that first accommodates
Space 12 is that moisturizing is still discharged.For convenient for automatically controlling, the valve member in above embodiment is both preferably solenoid valve.
Specifically, the filtering water delivery pipe road 300 is connected by third pipeline 600 with the raw water input channel 100
It is logical.Wherein, the second tie point 23 of the third pipeline 600 and the raw water input channel 100 is located at second valve group
Between part 3 and the booster pump 4.To prevent flushing waste water from entering third pipeline, and liquid reflux is prevented, described to cross drainage defeated
Pipeline 300 is in series with the first check valve 6 between second tie point 23 and the filtering mouth of a river out.
The third tie point 24 in the third pipeline 600 and the filtering water delivery pipe road 300 is located at the drainage of crossing and goes out
Between mouth and the first receiving space 12.The third pipeline 600 is equipped with third valve member 11.
Specifically, third valve member 11 can be concatenated electromagnetic switch valve and check valve, can by the check valve
To avoid drainage flushed on third pipeline 600 reflux.The filtering water outlet, the first receiving space 12 are through the third
Pipeline 600 can be connected with the original water inlet, be rinsed with inputting drainage to the original water inlet.
The third valve member is also provided with high-voltage switch gear.The high-voltage switch gear can be in the pressure of third pipeline 600
Power controls the third valve member 11 electromagnetic switch valve when being greater than predetermined pressure is opened.The high-voltage switch gear passes through pipeline and the
One accommodation space 12 communicates.When producing flushed drainage, when the pressure of first receiving space 12 is greater than predetermined pressure, show the
Target value has been expired or reached to flushed drainage in one accommodation space 12, and high-voltage switch gear can control the first valve member 11
Electromagnetic switch valve opens (conducting).Again washing and filtering can be realized in second valve member 3 and the closing of inlet valve 1 by water purifier
Mechanism.
The working principle of the water purifier of the application embodiment is described in detail, below with reference to Fig. 1 to Fig. 3 so as to preferably
Understand the application.
As shown in Figure 1.In normal water processed, user is opened with water valve 7, and water purifier opens inlet valve 1, and by first pipe
The first valve member 10 on 400 is closed, and the controlled valve on waste outflow pipe 200 is opened, and the electromagnetism of multifunctional electromagnetic valves is opened
It closes valve 15 and closes (throttling action of waste water proportioner enforcement at this time).Also, open the second valve member 3 and starting booster pump 4.
Close the third valve member 11 on third pipeline 600.
At this point, raw water enters the original water inlet of filter mechanism 5 through raw water input channel 100, booster pump 4, by filter
Structure 5 formed cross drainage be discharged by filtering water outlet, cross drainage by filtering water delivery pipe road 300 arrival use water end (W.E.).Second holds
Receive space 13 be cavity when (for example water purifier initial launch, flushing waste water have been fully drained), raw water is in the first tie point 22
Into second pipe 500, subsequently into the second accommodation space 13, the second accommodation space 13 fills into raw water.
As shown in Fig. 2, when user closes with water valve 7, water purifier enter cleaning procedure step 1: producing washing and filtering
Water.The step can shut down in water purifier and (close with water valve 7) to open after the predetermined time and execute, to guarantee that booting TDS is low.When
So, it can also be run immediately when shutting down in the embodiment having.
In this step, the water in storing mechanism (the second accommodation space) can be input to the filter mechanism by water purifier
In produce flushed drainage.Due to being closed with water valve 7 on filtering water delivery pipe road 300, thus, rinse the filter mechanism 5
When, drainage was not discharged in the water purifier.The controlled valve on waste outflow pipe 200 is closed, thus, rinse the filter
When structure 5, waste water is not discharged in the water purifier.
The electromagnetic switch valve of the first valve member 10 and multifunctional electromagnetic valves in first pipe 400 is opened (at this point, useless
Water proportioner is by electromagnetic switch valve short circuit).To which the waste water that filter mechanism 5 is discharged is re-entered filter mechanism 5 and is produced
Flushed drainage.The third valve member 11 on third pipeline 600 is closed, cannot be introduced into avoid the flushed drainage produced
First receiving space 12.In this step, the inlet valve 1 on raw water input channel 100 can also be kept open, and be opened
Second valve member 3.
Start booster pump 4, the water in the second accommodation space 13 (can be the raw water in previous step, or next
Flushing waste water in step) through second pipe 500, the first tie point 22 and booster pump 4 entrance filter mechanism 5, filter mechanism
5 formed drainage and waste water.Waste water reenters filter through first pipe 400, the first tie point 22 and booster pump 4
Structure 5.What filter mechanism 5 was produced crosses drainage through (part) filtering water delivery pipe road 300 into first receiving space 12, forms punching
Wash drainage.
As shown in Figure 3.It is that water purifier enters cleaning procedure step 2: water purifier can use the flushed drainage rinses
The filter mechanism, meanwhile, water purifier rinses the mistake using the storing mechanism (referring to the second accommodation space) recycling storage
The water that the wastewater outlet is discharged when filter structure.
When needing washing and filtering mechanism 5, the third valve member 11 of third pipeline 600 is opened, first receiving space
12 are connected with the original water inlet of filter mechanism 5 by third pipeline 600.By the inlet valve 1, second of raw water input channel 100
Valve member 3 is closed.The controlled valve on waste outflow pipe 200 is closed, thus, it is described net when rinsing the filter mechanism 5
Waste water is not discharged in water dispenser.It closes on filtering water delivery pipe road 300 and uses water valve 7, thus, it is described when rinsing the filter mechanism 5
Drainage was not discharged in water purifier.
Booster pump 4 is opened, the flushed drainage in first receiving space 12 is input to filtering through original water inlet by booster pump 4
In mechanism 5.The concentrated water driving of waste water side is discharged flushed drainage from wastewater outlet, meanwhile, because there are one for the driving of booster pump 4
Fixed hydraulic pressure, for flushed drainage in washing and filtering mechanism 5, the filtering water outlet of filter mechanism 5 will form a certain amount of filtering
Water, the Partial filtration water through (partial-length) filtering water delivery pipe road 300 and third pipeline 600, booster pump 4 again into
Enter in filter mechanism 5, filter mechanism 5 is rinsed.At this point, water purifier is by 5 filtering water outlet of flushed drainage and filter mechanism
The drainage of crossing of discharge inputs original water inlet together, is rinsed to filter mechanism 5.When washing and filtering mechanism 5, filter mechanism 5
The flushing waste water of wastewater outlet discharge enters in the second accommodation space 13 through first pipe 400, second pipe 500, useless by rinsing
Water recycling storage.Then step as shown in Figure 2 is executed.
The TDS of flushing waste water is excessively high and causes the TDS of flushed drainage excessively high to prevent, and executes the utilization in water purifier
The flushed drainage rinses the filter mechanism 5;And the utilization storing mechanism (referring to the second accommodation space) institute
The flushing waste water of recycling storage is produced after flushed drainage circulation executes predetermined time or pre-determined number, by the water of recycling storage from
Water purifier discharge.
Please refer to Fig. 7-embodiment shown in Fig. 9.The recovering mechanism includes accommodating for storing the second of flushing waste water
Space 13;The first receiving space 12 is not connected to mutually with second accommodation space 13.Wherein, for first receiving space 12
Description with the second accommodation space 13 can description with reference to above embodiment, in embodiment, in the present embodiment no longer one by one
It repeats.
In this embodiment, the water purifier has water pocket component 14.The water pocket component 14 have accommodating space and
Positioned at the water pocket of the accommodating space.The water pocket component 14 passes through water pocket for 13 phase of first receiving space 12 and the second accommodation space
Interval.The inside of the water pocket forms the first receiving space 12.The external of the water pocket forms the second accommodation space 13.Such as
This can integrate flushing machine and recovering mechanism, improve level of integrated system.Second accommodation space 13 is held with described first
The total volume in space 12 received can be kept constant.
In this embodiment, the water purifier has booster pump 4 (being referred to as water pump).The water outlet of the booster pump 4
Mouth is connected to the original water inlet.The first pipe 400 is connected with the water inlet of the booster pump 4, so with the original
Water inlet is connected.The water inlet of booster pump 4 is communicated with raw water input channel 100.The first pipe 400 can be with the original
Water inlet pipe road 100 is connected (junction can be the first tie point 22), to realize the water inlet for being connected to the booster pump 4.
Second accommodation space 13 is series in the first pipe 400.First valve member 10 is located at described
The downstream of second accommodation space 13.First valve member 10 may include concatenated electromagnetic switch valve and check valve.Non-common
The partial waste outflow pipe 200 is connected between first valve member 10 and second accommodation space 13.And
And (certainly, the waste outflow pipe 200 and the common sparing pipeline of the first pipe 400 are equipped with waste water proportioner 8
The waste water proportioner 8 also can be set to said combination solenoid valve in a further embodiment), the waste water row of non-common part
Pipeline 200 is equipped with waste water waste cock 9 out (whether the waste water waste cock 9 control water purifier drains outward).
There is the first import and first outlet that communicate with first receiving space 12, and with the on the water pocket component 14
The second import that two accommodation spaces 13 communicate, second outlet.Wherein, water pocket component 14 is concatenated by the second import, second outlet
In in the first pipe 400, realization second accommodation space 13 is series in the first pipe 400.
The first receiving space 12 is connected by the 7th pipeline 1000 with the water inlet of the booster pump 4.Described
Seven pipelines 1000 are equipped with the 7th valve member 20.7th valve member 20 can be concatenated electromagnetic switch valve and unidirectional
Valve.To reduce manufacturing cost, the 7th pipeline 1000 can be with the 400 common sparing pipeline of first pipe.Described 7th
Valve member 20 is located at the upstream of the common sparing pipeline.The first receiving space 12 passes through the 8th pipeline 1100 and the mistake
Drainage output channel 300 is connected.
First import of the first receiving space 12 is connected to the 8th pipeline 1100, first outlet and the 7th pipeline 1000
Connection.To prevent liquid reflux, the drainage of crossing for avoiding first receiving space 12 from exporting was directly inputted into through the 8th pipeline 1100
Filter structure 5 crosses drainage side and not formed flushing, and the 8th pipeline 1100 is equipped with second one-way valve 21.
The working principle of the water purifier of the application embodiment is described in detail, below with reference to Fig. 7 to Fig. 9 so as to preferably
Understand the application.
As shown in fig. 7, user opens faucet switch, the normal water processed of water purifier, the first valve member in first pipe 400
10 close, and the controlled valve on waste outflow pipe 200 is opened.Also, start booster pump 4.It closes on the 7th pipeline 1000
7th valve member 20.Open the inlet valve 1 of raw water input channel 100.
At this point, raw water enters the original water inlet of filter mechanism 5 through raw water input channel 100, booster pump 4, by filter
Structure 5 formed cross drainage be discharged by filtering water outlet, cross drainage by filtering water delivery pipe road 300 arrival use water end (W.E.).Waste water warp
After second accommodation space 13 is full of by waste outflow pipe 200, water purification is discharged in the waste outflow pipe 200 through non-common part
Machine.
As shown in figure 8, into cleaning procedure step 1: produce flushed drainage, being closed when user's cutout cock is switched
The inlet valve 1 of raw water input channel 100.The controlled valve on (non-common part) waste outflow pipe 200 is closed, thus, punching
When washing the filter mechanism 5, waste water is not discharged in the water purifier.The 7th valve member 20 on the 7th pipeline 1000 is closed, with
The flushed drainage produced is avoided to cannot be introduced into first receiving space 12.In this step, on raw water input channel 100 into
Water valve 1 can remain off.The first valve member 10 in first pipe 400 is opened, thus, by the second accommodation space 13
In waste water input filter mechanism 5 through first pipe 400 and produce flushed drainage, and held by the 8th pipeline 1100 input first
Receive space 12.The waste outflow pipe 200 that the waste water of the wastewater outlet output of filter mechanism 5 passes through common sparing (is all part
First pipe 400) it re-enters to the second accommodation space 13.
Start booster pump 4, the water in the second accommodation space 13 (can be the waste water in previous step, or next
Flushing waste water in step) through first pipe 400, the first tie point 22 and booster pump 4 entrance filter mechanism 5, filter mechanism
5 formed drainage and waste water.Waste water is through common sparing waste outflow pipe 200 (namely common sparing first pipe 400) weight
Newly enter the second accommodation space 13.The drainage excessively that filter mechanism 5 is produced enters first receiving space 12 through the 8th pipeline 1100.
As shown in figure 9, open the 7th valve member 20 of the 7th pipeline 1000 when needing washing and filtering mechanism 5, the
One accommodation space 12 is connected with the original water inlet of filter mechanism 5 by the 7th pipeline 1000.By raw water input channel 100 into
Water valve 1 is closed.The controlled valve on waste outflow pipe 200 is closed, thus, when rinsing the filter mechanism 5, the water purifier
Waste water is not discharged.It closes on filtering water delivery pipe road 300 and uses water valve 7, thus, when rinsing the filter mechanism 5, the water purification
Drainage was not discharged in machine.Close the first valve member 10 in first pipe 400.
Booster pump 4 is opened, the flushed drainage in first receiving space 12 is input to filtering through original water inlet by booster pump 4
In mechanism 5.The concentrated water driving of waste water side is discharged flushed drainage from wastewater outlet, meanwhile, because there are one for the driving of booster pump 4
Fixed hydraulic pressure, for flushed drainage in washing and filtering mechanism 5, the filtering water outlet of filter mechanism 5 will form a certain amount of filtering
Water, Partial filtration water warp (partial-length) filtering water delivery pipe road 300, the 8th pipeline 1100 and the 7th pipeline 1000,
Booster pump 4 reenters in filter mechanism 5, rinses to filter mechanism 5.
At this point, the drainage of crossing that flushed drainage and 5 filtering water outlet of filter mechanism are discharged water purifier inputs original together
Water inlet is rinsed filter mechanism 5.When washing and filtering mechanism 5, the flushing waste water of the wastewater outlet discharge of filter mechanism 5
Common sparing waste outflow pipe 200 (namely common sparing first pipe 400) enters the second accommodation space 13, by flushing waste water
Recycling storage.
In embodiment as shown in Figure 4-Figure 6.The water purifier can also have booster pump 4.The booster pump 4 into
The mouth of a river is communicated with the first filter assemblies 19 with the first receiving space 12.Wherein, the first filter assemblies 19 can be filter
Bottle structure.Described in the first receiving space 12 can also recycle when the filter mechanism 5 is rinsed in storage after it will cross drainage discharge
The water that wastewater outlet is discharged, to form the recovering mechanism.
In this embodiment, first receiving space 12 and the second accommodation space 13 use the same space under different time,
Namely first filter assemblies 19 inner space.Flushing waste water, Yi Jichong are inputted by its input terminal in the first filter assemblies 19
Wash drainage for the moment, it is another to be exported from the output end of the first filter assemblies 19, it is specifically pushed and the drive of booster pump 4
Dynamic lower output.
In the present embodiment, which is specifically as follows composite filter element (such as nanofiltration membrane, microfiltration membranes, work
Property charcoal, PP cotton etc. are several), or single filter core (such as nanofiltration membrane, microfiltration membranes, active carbon, PP cotton etc.).It is specific such as to scheme
Shown in 4, which can be pretreatment filter).
In this embodiment, the water inlet of the booster pump 4 is connected to raw water input channel 100.First filter assemblies
19 are series on the raw water input channel 100.The first pipe 400 is connect with the 4th of the raw water input channel 100
Point 25 is between first filter assemblies 19 and the booster pump 4.
The water inlet end of first filter assemblies 19 is connected by the 4th pipeline 700 with the wastewater outlet.Described
Four pipelines 700 are equipped with the 4th valve member 16.4th pipeline 700 and the 400 common sparing pipeline of first pipe.Institute
State the downstream that the 4th valve member 16 is located at the common sparing pipeline.First valve member 10 is located at the common sparing pipeline
Downstream.
The water inlet end of first filter assemblies 19 also passes through the 5th pipeline 800 and is connected to the filtering water outlet.Described
Five pipelines 800 are equipped with the 5th valve member 17.The filtering water outlet also passes through the 6th pipeline 900 and the booster pump 4
Water inlet connection.6th pipeline 900 is equipped with the 6th valve member 18.6th pipeline 900 and the 5th pipeline
800 common sparing pipelines;5th valve member 17 is located at the downstream of the common sparing pipeline;6th valve member 18
Positioned at the downstream of the common sparing pipeline.
The working principle of the water purifier of the application embodiment is described in detail, below with reference to fig. 4 to fig. 6 so as to preferably
Understand the application.
As shown in Figure 4.In normal water processed, (can also be regarded with water valve 7 on the opened drainage output channel 300 of user
Leading switch).Water purifier (controller) closes the first valve member 10 in first pipe 400, waste outflow pipe
Controlled valve on 200 is opened, and booster pump 4 is started.Water purifier (controller) closes the 4th valve group on the 4th pipeline 700
Part 16 closes the 5th valve member 17 on the 5th pipeline 800, closes the 6th valve member 18 on the 6th pipeline 900, opens
The inlet valve 1 (being referred to as inlet water solenoid valve) of raw water input channel 100.
At this point, raw water enters filter mechanism 5 through raw water input channel 100, the first filter assemblies 19 and booster pump 4
Original water inlet is discharged by filtering water outlet by the drainage of crossing that filter mechanism 5 is formed, crosses drainage by filtering water delivery pipe road
Water end (W.E.) is used in 300 arrival.Water purifier is discharged through waste outflow pipe 200 in waste water.Raw water is full of in first filter assemblies 19.
As shown in Figure 5.When needing to produce flushed drainage, user closes on filtering water delivery pipe road 300 and uses water valve
7, water purifier enter cleaning procedure step 1: producing flushed drainage.Close the inlet valve 1 of raw water input channel 100.It closes
Controlled valve on waste outflow pipe 200, thus, when rinsing the filter mechanism 5, waste water is not discharged in the water purifier.It beats
The 5th valve member 17 on the 5th pipeline 800 is opened, and closes the 6th valve member 18 of the 6th pipeline 900, to avoid institute
The flushed drainage produced cannot be introduced into first receiving space 12.
In this step, the inlet valve 1 on raw water input channel 100 can remain off.Close the 4th pipeline 700
On the 4th valve member 16, to avoid wastewater outlet discharge waste water enter the first filter assemblies 19.Open first pipe 400
On the first valve member 10, thus, by the waste water in filter mechanism 5 through first pipe 400 input booster pump 4, re-enter
First filter assemblies 19.
Start booster pump 4, the water (can be raw water in previous step) in the first filter assemblies 19 entered through booster pump 4
Filter structure 5, filter mechanism 5 formed drainage and waste water.Waste water is through (the common sparing waste outflow pipe of first pipe 400
200) the first filter assemblies 14 are reentered.The drainage excessively that filter mechanism 5 is produced enters the first filtering group through the 5th pipeline 800
Part 19 forms flushed drainage, and the raw water in the first filter assemblies 19 is pushed out and is aspirated by booster pump 4, into filter mechanism 5
Middle filtering.
As shown in Figure 6.It is that water purifier enters cleaning procedure step 2: water purifier can use the flushed drainage rinses
The filter mechanism, meanwhile, water purifier rinses the mistake using the storing mechanism (referring to the second accommodation space) recycling storage
The water that the wastewater outlet is discharged when filter structure.
When needing washing and filtering mechanism 5, remained off with water valve 7.Water purifier is by the 4th valve of the 4th pipeline 700
Door component 16 is opened, and the first valve member 10 in first pipe 400, the original of the first filter assemblies 19 and filter mechanism 5 are closed
Water inlet is connected by the 4th pipeline 700.The inlet valve 1 of raw water input channel 100 is closed.Close waste outflow pipe
Controlled valve on 200, thus, when rinsing the filter mechanism 5, waste water is not discharged in the water purifier.Close the 5th pipeline 800
On the 5th valve member 17, open the 6th pipeline 900 on the 6th valve member 18.
Flushed drainage in first filter assemblies 19 is input to by booster pump continuous running, booster pump 4 through original water inlet
In filter mechanism 5.The concentrated water driving of waste water side is discharged flushed drainage from wastewater outlet, meanwhile, because the driving of booster pump 4 is deposited
In certain hydraulic pressure, in washing and filtering mechanism 5, the filtering water outlet of filter mechanism 5 will form a certain amount of flushed drainage
Cross drainage, the Partial filtration water through (partial-length) filtering water delivery pipe road 300, the 6th pipeline 900, booster pump 4 again into
Enter in filter mechanism 5, filter mechanism 5 is rinsed.At this point, water purifier is by 5 filtering water outlet of flushed drainage and filter mechanism
The drainage of crossing of discharge inputs original water inlet together, is rinsed to filter mechanism 5.When washing and filtering mechanism 5, filter mechanism 5
The flushing waste water of wastewater outlet discharge enters the first filter assemblies 19 through first pipe 400, and flushing waste water is recycled and is stored.
In the implementation, step shown in Fig. 5, Fig. 6 can be controlled by the time.In figure 5 it is possible to produce the first pre- timing
Between flushed drainage.First predetermined time can be according to the capacity of the first filter assemblies 19 and water speed processed or increasing
The parameters such as press pump power determine, do not limit specific value in the present embodiment.In Fig. 6, it can rinse for the second predetermined time
Flushed drainage (namely waste water of the discharge of filter mechanism 15 of the second predetermined time of recycling).Second predetermined time can basis
The parameters such as the capacity and flushing speed or pressurization pump power of the first filter assemblies 19 determine, do not limit in the present embodiment
Specific value.
In one embodiment of the application, the water purifier has storing mechanism.The control method can also include:
Water in storing mechanism is input in the filter mechanism 5 and produces flushed drainage.Correspondingly, the control method can wrap
It includes: rinsing the filter mechanism 5 using the flushed drainage;Storage, which is recycled, using the storing mechanism rinses the filter
The water that the wastewater outlet is discharged when structure 5.
Wherein, the storing mechanism can refer to above-mentioned second accommodation space 13, no longer repeat one by one in present embodiment.
Water in memory space can be flushing waste water, or raw water.Schematic quality is exemplified as: can be initial in storing mechanism
Under cavity state (such as: after in booting, operation or flushing waste water are discharged water purifier for the first time) it is stored with raw water, hereafter net
After water dispenser executes the control method, storing mechanism can be full of flushing waste water.
Herein cited any digital value all include between lower limit value to upper limit value with the lower value of an incremented and
The all values of upper value, there are the intervals of at least two units between any lower value and any much higher value.For example, such as
Fruit elaborates that the quantity an of component or the value of process variable (such as temperature, pressure, time etc.) are from 1 to 90, preferably from 20
To 80, more preferably from 30 to 70, then purpose is arrived in order to illustrate also clearly listing such as 15 to 85,22 in the specification
68,43 to 51,30 to 32 is equivalent.For the value less than 1, suitably think that a unit is 0.0001,0.001,0.01,0.1.
These are only intended to the example clearly expressed, it is believed that all possibility for the numerical value enumerated between minimum and peak
Combination is all expressly set forth in the specification in a similar manner.
Unless otherwise indicated, all ranges all include all numbers between endpoint and endpoint.It is used together with range
" about " or " approximation " be suitable for two endpoints of the range.Thus, " about 20 to 30 " are intended to cover that " about 20 to about
30 ", including at least the endpoint indicated.
All articles and reference disclosed, including patent application and publication, for various purposes by quoting knot
Together in this.Describing combined term " substantially by ... constitute " should include identified element, ingredient, component or step and reality
Other elements, ingredient, component or the step of the basic novel feature of the combination are not influenced in matter.Using term "comprising" or
" comprising " describes the combination of element here, ingredient, component or step it is also contemplated that substantially by these elements, ingredient, component
Or the embodiment that step is constituted.Here by using term " can with ", it is intended to illustrate that " can with " includes described any
Attribute is all optional.
Multiple element, ingredient, component or step can be provided by single integrated component, ingredient, component or step.Optionally
Ground, single integrated component, ingredient, component or step can be divided into multiple element, ingredient, component or the step of separation.It is used to
The open "a" or "an" for describing element, ingredient, component or step is not said to exclude other elements, ingredient, component
Or step.
It should be understood that above description is to illustrate rather than to be limited.By reading above-mentioned retouch
It states, many embodiments and many applications except provided example all will be aobvious and easy for a person skilled in the art
See.Therefore, the range of this introduction should not be determined referring to foregoing description, but should referring to appended claims and this
The full scope of the equivalent that a little claims are possessed determines.For comprehensive purpose, all articles and with reference to including special
The disclosure of benefit application and bulletin is all by reference to being incorporated herein.Theme disclosed herein is omitted in preceding claims
Any aspect is not intended to abandon the body matter, also should not be considered as inventor the theme is not thought of as it is disclosed
A part of utility model theme.
Claims (21)
1. a kind of water purifier characterized by comprising
Filter mechanism;The filter mechanism has original water inlet, filtering water outlet and wastewater outlet;
The flushing machine that can be connected with the original water inlet;The flushing machine can rinse the filter mechanism;
The recovering mechanism that can be connected with the wastewater outlet;The recovering mechanism can recycle storage and rinse the filter mechanism
The water that Shi Suoshu wastewater outlet is discharged.
2. water purifier as described in claim 1, it is characterised in that: the wastewater outlet is communicated with waste outflow pipe;It is described
Waste outflow pipe is equipped with waste water waste cock;The flushing machine rinses the waste water waste cock when filter mechanism
It closes.
3. water purifier as claimed in claim 2, it is characterised in that: the recovering mechanism can also be connected with the original water inlet
It is logical;It supplies water when the recovering mechanism difference from the wastewater outlet recycle-water and to the original water inlet.
4. water purifier as claimed in claim 3, it is characterised in that: the flushing machine includes first for stored filter water
Accommodation space;It supplies water when the first receiving space difference to the original water inlet and inputs water from the filtering water outlet;
The filtering water outlet is communicated with the filtering water delivery pipe road being connected with water end (W.E.);The first receiving space and the filtering
Water delivery pipe road is connected.
5. water purifier as claimed in claim 4, it is characterised in that: the wastewater outlet by first pipe and the raw water into
Mouth is connected;The first pipe is equipped with the first valve member;
The first pipe is inputted in the waste water for flowing out the wastewater outlet when crossing drainage for producing the first receiving space
To the original water inlet.
6. water purifier as claimed in claim 5, it is characterised in that: the waste outflow pipe and the first pipe common portion
Subtube;The common sparing pipeline is equipped with waste water proportioner, alternatively, the non-common part of the waste outflow pipe is equipped with
Waste water proportioner.
7. water purifier as claimed in claim 6, it is characterised in that: the waste water proportioner is parallel with electromagnetic switch valve.
8. the water purifier as described in claim 5-7 is any, it is characterised in that: the recovering mechanism includes giving up for storing to rinse
Second accommodation space of water;The first receiving space is not connected to mutually with second accommodation space, also, described second accommodates
The volume of the volume in space and the first receiving space is negatively correlated.
9. water purifier as claimed in claim 8, it is characterised in that: also have booster pump;The water outlet of the booster pump and institute
State original water inlet connection;The first pipe is connected with the water inlet of the booster pump, and then is connected with the original water inlet
It is logical.
10. water purifier as claimed in claim 9, it is characterised in that: second accommodation space by second pipe with it is described
The water inlet of booster pump is connected;Also, second accommodation space is connected to the first pipe by the second pipe, with
It is connected with the wastewater outlet.
11. water purifier as claimed in claim 10, it is characterised in that:
The water inlet of the booster pump is connected with raw water input channel;
The first pipe, the second pipe are connected to by the first tie point with the raw water input channel;
Raw water input channel is equipped with the second valve member in the downstream of first tie point.
12. water purifier as claimed in claim 11, it is characterised in that: the filtering water delivery pipe road passes through third pipeline and institute
Raw water input channel is stated to be connected;Second tie point of the third pipeline and the raw water input channel is located at second valve
Between door component and the booster pump;
The filtering water delivery pipe road is in series with the first check valve between second tie point and the filtering water outlet;
The third tie point in the third pipeline and the filtering water delivery pipe road is located at the filtering water outlet and described first
Between accommodation space;The third pipeline is equipped with third valve member;
The filtering water outlet, the first receiving space can be connected through the third pipeline with the original water inlet, with to
The original water inlet inputted drainage flushing.
13. the water purifier as described in claim 5-7 is any, it is characterised in that: also have booster pump;
The water inlet of the booster pump is communicated with the first filter assemblies with the first receiving space;
The first receiving space waste water can also go out when the filter mechanism is rinsed in recycling storage after crossing drainage discharge
The water that mouth is discharged, to form the recovering mechanism.
14. water purifier as claimed in claim 13, it is characterised in that: the water inlet of the booster pump is connected to raw water input pipe
Road;First filter assemblies are series on the raw water input channel;The first pipe and the raw water input channel
4th tie point is between first filter assemblies and the booster pump.
15. water purifier as claimed in claim 14, it is characterised in that: the water inlet end of first filter assemblies passes through the 4th pipe
Road is connected with the wastewater outlet;4th pipeline is equipped with third valve member;
4th pipeline and the first pipe common sparing pipeline;The third valve member is located at the common sparing pipeline
Downstream;First valve member is located at the downstream of the common sparing pipeline.
16. water purifier as claimed in claim 15, it is characterised in that: the water inlet end of first filter assemblies also passes through the 5th
Pipeline is connected to the filtering water outlet;5th pipeline is equipped with the 5th valve member.
17. water purifier as claimed in claim 16, it is characterised in that: the filtering water outlet also pass through the 6th pipeline with it is described
The water inlet of booster pump is connected to;6th pipeline is equipped with the 6th valve member;6th pipeline and the 5th pipeline
Common sparing pipeline;5th valve member is located at the downstream of the common sparing pipeline;6th valve member is located at should
The downstream of common sparing pipeline.
18. water purifier as claimed in claim 9, it is characterised in that: second accommodation space is series at the first pipe
On;First valve member is located at the downstream of second accommodation space;The waste outflow pipe of non-common part connects
It is connected between first valve member and second accommodation space.
19. water purifier as claimed in claim 18, it is characterised in that: the first receiving space by the 7th pipeline with it is described
The water inlet of booster pump is connected;7th pipeline is equipped with the 7th valve member;7th pipeline and first pipe
Road common sparing pipeline;7th valve member is located at the upstream of the common sparing pipeline.
20. water purifier as claimed in claim 19, it is characterised in that: the first receiving space by the 8th pipeline with it is described
Filtering water delivery pipe road is connected;8th pipeline is equipped with second one-way valve.
21. water purifier as claimed in claim 8, it is characterised in that: the water purifier has water pocket component;The water pocket component
With accommodating space and positioned at the water pocket of the accommodating space;The inside of the water pocket forms the first receiving space;Institute
It states the external of water pocket and forms the second accommodation space.
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CN110550753A (en) * | 2018-05-30 | 2019-12-10 | 艾欧史密斯(中国)环境电器有限公司 | Water purifier and control method |
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Cited By (1)
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CN110550753A (en) * | 2018-05-30 | 2019-12-10 | 艾欧史密斯(中国)环境电器有限公司 | Water purifier and control method |
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