CN107327594A

CN107327594A - Flow-controlled device

Info

Publication number: CN107327594A
Application number: CN201710268078.5A
Authority: CN
Inventors: 胡霄宗; 胡继宗; 涂泽红
Original assignee: Individual
Current assignee: Ningbo Coman Environmental Protection Technology Co Ltd
Priority date: 2012-05-15
Filing date: 2013-05-15
Publication date: 2017-11-07
Anticipated expiration: 2033-05-15
Also published as: CN107327593A; CN107327594B; CN104508339A; CN107654696A; CN104508339B; CN107327592A; WO2013170633A1; CN107654696B; CN107327595A; TW201406444A; CN107314128A

Abstract

The invention discloses a kind of flow-controlled device for being suitable to the control multidirectional flowing of fluid, wherein the flow-controlled device includes a first flow control element, a second flow control element and a shell, the second flow control element is suitable to located at the first flow control element and is accommodated in the first accommodating chamber of shell formation, user can by rotate the second flow control element so that located at the first flow control element each channel selectivity be connected with the passage of the second flow control element, so as to control the flowing of different current.The present invention has the advantages that simple in construction, manufacturing cost is low, easy to use and dependable performance.

Description

Flow-controlled device

Technical field

The present invention relates to a kind of fluid handling system, more particularly to a kind of flow-controlled device, the wherein flow-controlled device is applied to control The flowing of multiple fluid, to realize the fluid processing function of fluid system, user can be controlled by adjusting the second of the flow-controlled device Fluid element adjusts and controlled stream of the current on the fluid handling system different directions with respect to the motion of its first flow control element It is dynamic.

Background technology

Fluid is controlled and/or processing system, and such as water treatment system is more normal in industrial production and people's real life See.Common fluid handling system generally comprises a flow-controlled device and a processing unit, and wherein flow-controlled device is applied to controlling stream Body is to the flowing of processing unit, and processing unit is handled suitable for treating treatment fluid, with fluid after being handled.In fluid When processing system is treated treatment fluid and handled, when such as water treatment system is handled accessing pending water, for controlling fluid To realize that the flow-controlled device of fluid processing intent generally comprises one or more single function valves and/or multi-functional valve fluid, For fluid is handled with the processing unit of fluid after being handled it is relatively conventional have filter, such as filter membrane, activity Charcoal etc. and/or ion interchange unit, such as ion exchange resin/ion exchange column.In actual applications, at for fluid Filter membrane, activated carbon, the ion exchange resin of reason system generally require often to change or regeneration treatment, allow it to play good Filtering removes the effect of fluid intermediate ion.The filter membrane, activated carbon, ion of the processing unit of fluid handling system are handed in user Change resin etc. to be changed or during regeneration treatment, generally require to interrupt the fluid processing of fluid handling system, brought to user Substantial amounts of time cost.

Much use the water treatment system of existing flow-controlled device, it is impossible to which, by the single flow-controlled device, such as monomer valve is carried out simultaneously The control of a variety of current, and realize water process, positive flushing and back flush function.That is, existing realize complicated work( The water treatment system of energy generally requires the synergy with the complicated pipeline of arrangement and multiple valves.This improves water process system The production cost of system, increases the difficulty that Automated condtrol is carried out to it.In addition, being handled using the household water of existing flow-controlled device System, because the function restriction of flow-controlled device used, the water treatment system can not be provided and treat during cleaning blowdown for user Handle water after water, such as running water, or processing.But, only have a running water pipe in the kitchens of many number families now, when by family Front yard water processing system is connected together with the running water pipe, but household water processing system can not be provided for user after processing again When water and running water, just inconvenience is brought to user.

Application No. CN200610024561.0 Chinese patent discloses a kind of water treatment system, wherein the water process system The flow-controlled device of system includes two tee ball valves, two water inlet pipes, an outlet pipe and two blow-off pipes, the place of the water treatment system Reason unit includes two water-purifying tanks for being arranged in parallel, and water-purifying tank has the upper end open and a central tube of opening upwards, Wherein when water inlet pipe is connected with the upper end open of water-purifying tank respectively；Should when outlet pipe is connected with the central tube of water-purifying tank respectively Two water-purifying tanks of water treatment system carry out purified treatment to accessing pending water；When the upper end of a water inlet pipe and corresponding water-purifying tank Opening in communication, and corresponding triple valve is adjusted so that another water inlet pipe disconnects to external water source and is connected with corresponding blow-off pipe When logical, two water-purifying tanks one of the water treatment system are in water process state, and one is in backwash state, so that should Water treatment system persistently accessing pending water can be handled when water-purifying tank is in regeneration treatment wherein and to user not Water after offer processing is provided.But the shortcoming of the water treatment system is also apparent from.First, the water treatment system must use two Above valve and multiple water pipes of arranging, are handled and are cleaned to accessing pending water to realize the control of different current and realize The function of the water treatment system.

In addition, in existing industry or family expenses water technology, the mistake of filter core is realized commonly using multifunctional control valve Filter, backwash, the function such as just washing.In recent years, plane multifunctional control valve is increasingly becoming one of main flow valve kind of multifunctional control valve. Firstly, since the limitation of the complexity and valve block area of flat valve valve block and inner flow passage design so that the flat valve of big passage It is difficult to design；Secondly, uninterrupted water supply is needed during engineering use, that is to say, that backwash, just wash while supply not Raw water through processing, existing plane multifunctional control valve has been difficult to meet this demand.

Further, in existing industrial or family expenses water technology, the mistake of filter core is realized commonly using multifunctional control valve Filter, backwash, the function such as just washing.In recent years, plane multifunctional control valve is increasingly becoming one of main flow valve kind of multifunctional control valve. Firstly, since the limitation of the complexity and valve block area of flat valve valve block and inner flow passage design so that the flat valve of big passage It is difficult to design；Secondly, uninterrupted water supply is needed during engineering use, that is to say, that backwash, just wash while supply not Raw water through processing, existing plane multifunctional control valve has been difficult to meet this demand.

The content of the invention

(1) technical problem to be solved

The technical problem to be solved in the present invention is to provide a kind of multifunctional control valve, to overcome existing flat filter valve technology Middle valve plate runner is small or the defect of raw water can not be persistently supplied when rinsing.

(2) technical scheme

To reach above-mentioned purpose, the invention provides a kind of multifunctional control valve, including valve body, lid, valve rod, valve is placed in Original is provided with fixed valve plate and moving valve plate that internal use end face rotary seal coordinates, moving valve plate and valve rod connection, control valve It is provided with water inlet, pure water inlet, blowdown interface, filter core first interface and filter core second interface, fixed valve plate：Filter core first connects Mouth passage, filter core second interface passage, fifth hole and the 6th through hole, in control valve, filter core first interface passage and filter core First interface is connected, and filter core second interface passage is connected with filter core second interface, and fifth hole is connected with pure water inlet, 6th through hole is connected with blowdown interface；It is provided with moving valve plate on the intake tunnel being connected with original water inlet, moving valve plate also It is provided with conducting blind hole.

Further, filter core first interface passage includes first through hole and the second through hole, and first through hole and the second through hole are mutual Connect and be connected with filter core first interface；Filter core second interface passage includes third through-hole and fourth hole, third through-hole It is interconnected and is connected with filter core second interface with fourth hole；The intake tunnel of moving valve plate include the first intake tunnel and Second intake tunnel, the first intake tunnel and the second intake tunnel are connected with original water inlet respectively.

Further, filter core first interface passage, filter core second interface passage and the 6th through hole are arranged on the inner ring of fixed valve plate On, fifth hole is arranged on the outer shroud of fixed valve plate.

Further, filter core first interface passage, filter core second interface passage and the 6th through hole are arranged on the inner ring of fixed valve plate On, fifth hole is arranged in the inner ring and outer rings of fixed valve plate.

Further, the matching relationship of fixed valve plate and moving valve plate includes：Filter core first interface passage is connected with intake tunnel, filter Core second interface passage and fifth hole are connected with conducting blind hole, and the passive valve block closing of the 6th through hole is covered；Or filter core second connects Mouth passage and fifth hole are connected with intake tunnel, and filter core first interface passage and the 6th through hole are connected with conducting blind hole；Or filter Core first interface passage and fifth hole are connected with intake tunnel, and filter core second interface passage and the 6th through hole connect with conducting blind hole It is logical.

Further, the matching relationship of fixed valve plate and moving valve plate includes：Filter core first interface passage is connected with intake tunnel, filter Core second interface passage and fifth hole are connected with conducting blind hole, and the passive valve block closing of the 6th through hole is covered；Or filter core second connects Mouth passage is connected with intake tunnel, and filter core first interface passage and the 6th through hole are connected with conducting blind hole, fifth hole passive valve Piece closing is covered；Or filter core first interface passage is connected with intake tunnel, filter core second interface passage and the 6th through hole and conducting Blind hole is connected, and the passive valve block closing of fifth hole is covered.

Further, the matching relationship of fixed valve plate and moving valve plate includes：First through hole is connected with the first intake tunnel, and second leads to Hole is connected with the second intake tunnel, and third through-hole and fifth hole are connected with conducting blind hole, and fourth hole and the 6th through hole are passive Valve block closing is covered；Or third through-hole is connected with the second intake tunnel, fourth hole is connected with the first intake tunnel, first through hole Connected with the 6th through hole with conducting blind hole, the second through hole and the passive valve block closing of fifth hole are covered；Or first through hole and second Intake tunnel is connected, and the second through hole is connected with the first intake tunnel, and fourth hole and the 6th through hole are connected with conducting blind hole, and the 3rd Through hole and the passive valve block closing of fifth hole are covered.

Further, the matching relationship of fixed valve plate and moving valve plate includes：Filter core first interface passage is connected with intake tunnel, filter Core second interface passage and fifth hole are connected with conducting blind hole, and the passive valve block closing of the 6th through hole is covered；Or filter core second connects Mouth passage is connected with intake tunnel, and fifth hole is connected with original water inlet, filter core first interface passage and the 6th through hole and conducting Blind hole is connected；Or filter core first interface passage is connected with intake tunnel, fifth hole is connected with original water inlet, filter core second interface Passage and the 6th through hole are connected with conducting blind hole.

(3) beneficial effect

Beneficial effects of the present invention：Valve inner runner is increased, the stream of the intake tunnel of moving valve plate is particularly increased Road width, makes the area of limited plane valve block obtain effective application so that the flow for entering fixed valve plate becomes big, whole valve body Water flowing quantitative change it is big；In backwash and undressed raw water can be supplied while just wash, to adapt to the uninterrupted confession in engineering The demand of water.

The main advantage of the present invention is that it provides a kind of flow-controlled device, and the wherein flow-controlled device is applied to above-mentioned water process system System, and at different operating position a variety of current can be controlled to flow in different directions respectively.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein each water stream channel design department of the flow-controlled device Learn, arrangement is reasonable, the flow-controlled device can be reduced as far as possible on the premise of the treatment function of water treatment system of the present invention is realized Volume, the material cost of the effectively save flow-controlled device.

Another advantage of the present invention is that its provides a kind of flow-controlled device, wherein the flow-controlled device be applied to regulation control include but The flowing control for the various fluids being not limited to including current.

Another advantage of the present invention is that it provides a kind of flow-controlled device, the wherein runoff of each water stream channel of the flow-controlled device The size in section is reasonable in design, so as to improve the water process speed using the water treatment system of the flow-controlled device as far as possible And water treatment efficiency.

Another advantage of the present invention is that it provides a kind of flow-controlled device, and each water stream channel of the wherein flow-controlled device is set respectively In the first flow control element and the second flow control element of the flow-controlled device of the flow-controlled device.So that the single flow-controlled device is that can be achieved Adjust the purpose of the treatment function, back flush function and positive pre-washing function of water treatment system.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein the single flow-controlled device is that can be achieved at regulation water The purpose of the treatment function of reason system, back flush function and positive pre-washing function, so as to reduce using the flow-controlled device The cost of the Automated condtrol of water treatment system and the difficulty for reducing the Automated condtrol for realizing the water treatment system.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein being not required to using the water treatment system of the flow-controlled device Connecting pipe that will be complicated, you can realize the multidirectional control to different current and realize the water treatment system treatment function, Positive pre-washing function and back flush function.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein using the water treatment system of the flow-controlled device right When the water process element of the water treatment system carries out positive flushing or back flush, the water treatment system can be provided for user and treated Handle water.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein optional using the water treatment system of the flow-controlled device Water after processing (or raw water, the running water such as directly flowed out from running water pipe) is provided to selecting property for user, with to the greatest extent The energy, beneficial environmental protection may be saved.

Another advantage of the present invention is that it provides a kind of flow-controlled device, wherein optional using the water treatment system of the flow-controlled device The forward flow treatment function and reverse flow treatment function to accessing pending water are realized to selecting property, so as to contribute to extension should The service life of the unit for treating water of water treatment system, so as to reduce the use cost of user, the energy is saved as far as possible and is had Beneficial environmental protection.

Another advantage of the present invention is that it provides a kind of flow-controlled device, and the wherein flow-controlled device includes a first flow control element With a second flow control element, wherein the first flow control element and the second flow control element is equipped with multiple fluid passages and worked as and be somebody's turn to do When second control element rotates with respect to the first flow control element, controlled located at the fluid passage of the first flow control element and second The fluid passage of fluid element is respectively connected with leading to, so that when the flow-controlled device is in different operating position, control flowing respectively exists The multidirectional flowing of the fluid of the first flow control element and the second flow control element.

Another advantage of the present invention is that its provides a kind of flow-controlled device, part that wherein flow-controlled device need not be accurate and multiple Miscellaneous structure, its manufacturing process is simple, with low cost.

Another advantage of the present invention is that it provides a kind of water treatment system, and the wherein water treatment system is above-mentioned including one Flow-controlled device and a processing unit, the wherein flow-controlled device are suitable to control multiple fluid, and the flowing of such as current, the processing unit is suitable to Treatment fluid, especially accessing pending water is treated to be handled.

Another advantage of the present invention is that it provides a kind of water treatment system, the wherein unit for treating water of the water treatment system Including a water process element, the water process element can be handled the accessing pending water from the flow-controlled device.

The other advantages and feature of the present invention are able to fully demonstrate and can be by appended rights by following detailed descriptions It is required that in the combination of means and device specially pointed out be achieved.

According to the present invention, can realize the flow-controlled device of the present invention of object defined above and other purposes and advantage includes:

One first flow control element；With

One second flow control element, wherein the second flow control element are rotatably arranged in the first flow control element, wherein this One flow control element includes a first flow control body, and the first flow control body includes a top ends, and the wherein top ends are formed One the first flow control face；The second flow control element includes a second flow control body, and the second flow control body has a bottom Portion and a high end upwardly extended from the bottom, the bottom form a second flow control face；Wherein first flow control First flow control face of element is suitable to be in contact with the second flow control face of the second flow control element,

Wherein the top ends of the first flow control element are prolonged including first central part, a first edge portion and one The first pars intermedia between first central part and the first edge part is stretched, the bottom of the second flow control element includes One the second central part, a second edge portion and second extended between second central part and the second edge portion Pars intermedia, the wherein flow-controlled device have first passage, second channel, third channel, fourth lane, one Individual 7th passage and the 9th passage, the wherein first passage, the second channel, the third channel and fourth lane difference Located at the first flow control body of the first flow control element；7th passage and the 9th passage are respectively arranged on the second flow control sheet Body, the wherein first passage, the second channel, the third channel and the fourth lane are respectively from the first of the first flow control element First flow control of flow control body extends downwards；Second flow control of wherein the 7th passage from the bottom of the second flow control body Upwardly extension and the second pars intermedia from the bottom of the second flow control body stretch out and formed one all the time with the control The first lead-through opening that the exterior space of stream device is connected；Second control of 9th passage from the bottom of the second flow control body Stream interface extends upwardly to the high end of the second flow control body of the second flow control element.

In order to realize object defined above of the present invention and other purposes, the present invention furthermore provides a kind of water process system System, wherein the water treatment system includes:

One flow-controlled device, the wherein flow-controlled device are applied to the flowing of control current；With

One unit for treating water, the wherein flow-controlled device are connected with the unit for treating water, and wherein the flow-controlled device includes one the One flow control element, one second flow control element and a shell, wherein the second flow control element are rotatably arranged in first flow control Element, wherein the first flow control element include a first flow control body, and the first flow control body includes a top ends and one One the first flow control face of individual end portion, the wherein top ends formation；The second flow control element includes a second flow control body, should Second flow control body has a bottom and a high end upwardly extended from the bottom, and the bottom forms one the Two flow control faces；Wherein the first flow control face of the first flow control element is suitable to connect with the second flow control face of the second flow control element Touch, wherein the top ends of the first flow control element are extended in including first central part, a first edge portion and one The first pars intermedia between first central part and the first edge part, bottom of the second flow control element includes one Second central part, a second edge portion and one are extended in the middle of second between second central part and the second edge portion Portion, the wherein flow-controlled device have first passage, second channel, third channel, fourth lane, one the Seven passages and the 9th passage, the wherein first passage, the second channel, the third channel and the fourth lane are respectively arranged on First flow control body of the first flow control element；7th passage and the 9th passage are respectively arranged on the second flow control body, its In the first passage, the second channel, the third channel and the fourth lane respectively from the first flow control of the first flow control element First flow control of body extends downwards；Wherein the 7th passage from the second flow control of the bottom of the second flow control body towards It is upper extension and the second pars intermedia from the bottom of the second flow control body stretch out and formed one all the time with the flow-controlled device The shell the first lead-through opening for being connected of first accommodating chamber；9th passage is from the bottom of the second flow control body The second flow control extend to upwardly the second flow control element the second flow control body the high end, wherein the shell include one Individual outer cover body, the wherein outer cover body from the end portion of the first flow control body of the first flow control element outwardly and upwardly Extend and enclose and be set as first accommodating chamber, wherein first accommodating chamber is connected with first lead-through opening of the 7th passage Logical, wherein the second flow control element is contained in first accommodating chamber face-down suitable for the second flow control, and located at first flow control The first flow control face of element, the wherein shell have one the 3rd opening, the 4th opening and one the 7th opening, wherein 3rd opening, the 4th opening and the 7th opening are respectively arranged on the outer cover body of the shell, and the wherein the 3rd opening is suitable Be connected in the third channel, the 4th opening be suitable to be connected with the fourth lane, the 7th opening be suitable to this first Accommodating chamber is connected, and wherein the unit for treating water includes a water process element, and the wherein water process element has one first Open communication and second open communication, wherein the accessing pending water from flow-controlled device is suitable to the water process from the unit for treating water Water after first open communication of element flows into the water process element and handled after being handled through the water process element, wherein at this Water is suitable to flow out from the second open communication of the water process element after reason.

By the understanding to subsequent description and accompanying drawing, further aim of the present invention and advantage will be fully demonstrated.

These and other objects, feature and the advantage of the present invention, by following detailed descriptions, drawings and claims are obtained To fully demonstrate.

Brief description of the drawings

Fig. 1 is valve body schematic diagram of the presently preferred embodiments of the present invention one to embodiment five；

Fig. 2 is the planar structure schematic diagram of the fixed valve plate of embodiment one；

Fig. 3 is the schematic top plan view of the moving valve plate of embodiment one；

Fig. 4 is structural representation of the embodiment one, four, five in filtration condition；

Fig. 5 is the relative position schematic diagram that embodiment one determines moving valve plate under filtration condition；

Fig. 6 is the structural representation of embodiment one, four, five in backwash simultaneously for raw water state；

Fig. 7 is the relative position schematic diagram that embodiment one determines moving valve plate in the case where backwash supplies raw water state simultaneously；

Fig. 8 is that embodiment one, four, five is just being washed while for the structural representation of raw water state；

Fig. 9 is that embodiment one is just being washed while determining the relative position schematic diagram of moving valve plate under for raw water state；

Figure 10 is the planar structure schematic diagram of the fixed valve plate of embodiment two；

Figure 11 is the schematic top plan view of the moving valve plate of embodiment two；

Figure 12 is structural representation of the embodiment two, three in filtration condition；

Figure 13 is the relative position schematic diagram that embodiment two determines moving valve plate under filtration condition；

Figure 14 be embodiment two, three in backwash while not supplying the structural representation of raw water state；

Figure 15 be embodiment two in backwash while not supplying to determine the relative position schematic diagram of moving valve plate under raw water state；

Figure 16 is that embodiment two, three is just being washed while not supplying the structural representation of raw water state；

Figure 17 is the relative position schematic diagram that embodiment two determines moving valve plate in the case where just washing while not supplying raw water state；

Figure 18 is the planar structure schematic diagram of the fixed valve plate of embodiment three；

Figure 19 is the schematic top plan view of the moving valve plate of embodiment three；

Figure 20 is the relative position schematic diagram that embodiment three determines moving valve plate under filtration condition；

Figure 21 be embodiment three in backwash while not supplying to determine the relative position schematic diagram of moving valve plate under raw water state；

Figure 22 is the relative position schematic diagram that embodiment three determines moving valve plate in the case where just washing while not supplying raw water state；

Figure 23 is the planar structure schematic diagram of the fixed valve plate of example IV；

Figure 24 is example IV, the schematic top plan view of five moving valve plate；

Figure 25 is the relative position schematic diagram that example IV determines moving valve plate under filtration condition；

Figure 26 is the relative position schematic diagram that example IV determines moving valve plate in the case where backwash supplies raw water state simultaneously；

Figure 27 is that example IV is just being washed while determining the relative position schematic diagram of moving valve plate under for raw water state；

Figure 28 is the planar structure schematic diagram of the fixed valve plate of embodiment five；

Figure 29 is the relative position schematic diagram that embodiment five determines moving valve plate under filtration condition；

Figure 30 is the relative position schematic diagram that embodiment five determines moving valve plate in the case where backwash supplies raw water state simultaneously；

Figure 31 is that embodiment five is just being washed while determining the relative position schematic diagram of moving valve plate under for raw water state；

Figure 32 A are the stereogram of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 B are the installation diagram of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 C are the top view of the second flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 D are the upward view of the second flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 E are the top view of the first flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 F are the upward view of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 32 G are the installation diagram of the flow-controlled device according to the 6th preferred embodiment of the invention, and wherein illustrated by the figure is the control Flow a kind of optional implementation of device.

Figure 33 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 33 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention.

Figure 33 C are the vertical view in the first flow control face of the first flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention Chain-dotted line in schematic diagram, the wherein figure show the different aliquots in the first flow control face.

Figure 33 D are the vertical view in the second flow control face of the second flow control element of the flow-controlled device according to the 6th preferred embodiment of the invention Chain-dotted line in schematic diagram, the wherein figure show the subregions such as the difference in the second flow control face.

Figure 34 A are the schematic top plan view of the flow-controlled device according to the 6th preferred embodiment of the invention, and the wherein figure show to work as and is somebody's turn to do When flow-controlled device is in the first working position, position of the first flow control element with respect to the second flow control element of the flow-controlled device.

Figure 34 B are the schematic top plan view of the flow-controlled device according to the 6th preferred embodiment of the invention, and the wherein figure show to work as and is somebody's turn to do When flow-controlled device is in the second working position, position of the first flow control element with respect to the second flow control element of the flow-controlled device.

Figure 34 C are the schematic top plan view of the flow-controlled device according to the 6th preferred embodiment of the invention, and the wherein figure show to work as and is somebody's turn to do When flow-controlled device is in three working positions, position of the first flow control element with respect to the second flow control element of the flow-controlled device.

Figure 34 D are the schematic top plan view of the flow-controlled device according to the 6th preferred embodiment of the invention, and the wherein figure show to work as and is somebody's turn to do When flow-controlled device is in four working positions, position of the first flow control element with respect to the second flow control element of the flow-controlled device.

Figure 35 is the diagrammatic cross-section of the water treatment system according to the 6th preferred embodiment of the invention, the wherein water treatment system Flow-controlled device be in above-mentioned first working position.

Embodiment

It is described below to be disclosed for so that those skilled in the art manufacture and using the present invention.Middle offer described below compared with Good embodiment is only as the example and modification that will be apparent to those skilled in the art, and it does not constitute the limit to the scope of the invention System.General Principle defined in described below can be applied to without departing substantially from spirit of the invention and invention scope other embodiments, It is optional to substitute, change, equally implementing and applying.

As shown in figure 4, when using the present invention, control valve is installed on water treatment tank 40s, filter core 44s is arranged on water In process tank 40s, or the directly filling filtering material composition filter core 44s, valve body 30s filter core first in water treatment tank 40s Interface 38s by upper collection umbrella 41s be connected on the outside of filter core 44s, filter core second interface 39s passes through central tube 42s and next part Umbrella 43s is connected with filter core 44s.Original water inlet 31s is connected to raw water water pipe, pure water inlet 32s is connected to water purification water outlet Pipe, drainage position is connected to by blowdown interface 33s.Pass through rotary valve rod 61s, you can rotate moving valve plate 20s to switch and fixed valve plate Overlap conditions different 10s is to realize difference in functionality.For rotation valve rod, it can be driven using rotation manually or program controlled motor The mode that ovable valve stem is rotated.

Embodiment one：

Persistently supplied water during flushing, monocyclic four hole fixed valve plate, the scheme of single intake tunnel.

As shown in Figures 1 to 4, combined using the moving valve plate of determining shown in Fig. 2 to Fig. 3, a kind of multifunctional control valve, including valve Body 30s, lid 60s, valve rod 61s, the fixed valve plate 10s and moving valve plate of the use end face rotary seal cooperation being placed in valve body 30s Original water inlet 31s, pure water inlet 32s, blowdown interface are provided with 20s, moving valve plate 20s and valve rod 61s connection, valve body 30s It is provided with 33s, filter core first interface 38s and filter core second interface 39s, fixed valve plate 10s：Filter core first interface passage 1s, filter Core second interface passage 3s, fifth hole 5s and the 6th through hole 6s, in control valve, filter core first interface passage 1s and filter core the One interface 38s is connected, and filter core second interface passage 3s is connected with filter core second interface 39s, and fifth hole 5s goes out with water purification Mouth 32s is connected, and the 6th through hole 6s is connected with blowdown interface 33s；It is provided with and is connected with original water inlet 31s on moving valve plate 20s Conducting blind hole 22s is additionally provided with logical intake tunnel 21s, moving valve plate 20s.As shown in Fig. 5, Fig. 7, Fig. 9, fixed valve plate 10s and Moving valve plate 20s matching relationship includes：Filter core first interface passage 1s is connected with intake tunnel 21s, filter core second interface passage 3s and fifth hole 5s is connected with conducting blind hole 22s, and the 6th through hole 6s is passive, and valve block 20s closings are covered；Or filter core second interface Passage 3s and fifth hole 5s are connected with intake tunnel 21s, filter core first interface passage 1s and the 6th through hole 6s and conducting blind hole 22s is connected；Or filter core first interface passage 1s and fifth hole 5s are connected with intake tunnel 21s, filter core second interface passage 3s Connected with the 6th through hole 6s with conducting blind hole 22s.

Three functions of being produced the following detailed description of the different matching relationships for determining moving valve plate.

Filtering function：As shown in Fig. 4 to Fig. 5, by rotary valve rod 61s, by the intake tunnel 21s on moving valve plate 20s with The overlapping connections of filter core first interface passage 1s on fixed valve plate 10s, conducting blind hole 22s connects with the filter core on fixed valve plate 10s second Mouthful passage 3s is overlapping with fifth hole 5s connects.Under this valve block overlap condition, current are as follows：Entered by original water inlet 31s The intake tunnel 21s for entering the driven valve block 20s of current of valve body is flowed into fixed valve plate 10s filter core first interface passage 1s, because Filter core first interface passage 1s is connected with filter core first interface 38s, so current flow through filter core first interface 38s, by upper Collect umbrella 41s, be flowed into filter core 44s outside, next part umbrella 43s is flowed into after being filtered through filter material, flowed into by 45s on the inside of filter core To filter core second interface 39s, because filter core second interface 39s is connected with fixed valve plate 10s filter core second interface passage 3s, institute Filter core second interface passage 3s is flowed to current, by moving valve plate 20s conducting blind hole 22s water conservancy diversion, fixed valve plate 10s is flowed into Fifth hole 5s, because fifth hole 5s is connected with pure water inlet 32s, thus current flow to pure water inlet 32s water supply.This When, the 6th through hole 6s is passive, and valve block 20s closings cover not water flowing, so blowdown interface 33s non-water flows.

Backwash supplies raw water function simultaneously：As shown in Figure 6 to 7, by rotary valve rod 61s, by the water inlet on moving valve plate 20s Passage 21s connections overlapping with filter core the second interface passage 3s and fifth hole 5s on fixed valve plate 10s, conducting blind hole 22s is with determining The overlapping connection of filter core first interface passage 1s and the 6th through hole 6s on valve block 10s.Under this valve block overlap condition, current are such as Under：The intake tunnel 21s for entering the driven valve block 20s of current of valve body by original water inlet 31s is flowed into fixed valve plate 10s filter core Second interface passage 3s and fifth hole 5s, because fifth hole 5s is connected with pure water inlet 32s, so undressed original Water directly flows out from pure water inlet 32s to supply water；Meanwhile, current flow through filter core second interface passage 3s, due to filter core second interface Passage 3s is connected with filter core second interface 39s, so current flow through filter core second interface 39s, flows through 45s on the inside of filter core, stream Through next part umbrella 43s, after back flush filter core 44s, collection umbrella 41s is flowed through, filter core first interface 38s is flowed to, due to filter core first Interface 38s is connected with filter core first interface passage 1s, so current flow to filter core first interface passage 1s, passes through moving valve plate 20s conducting blind hole 22s water conservancy diversion, is flowed into fixed valve plate 10s the 6th through hole 6s, due to the 6th through hole 6s and blowdown interface 33s is connected, so current pass through blowdown interface 33s drainings.

Just washing while supplying raw water function：As shown in Fig. 8 to Fig. 9, by rotary valve rod 61s, by the water inlet on moving valve plate 20s Passage 21s connections overlapping with filter core the first interface passage 1s and fifth hole 5s on fixed valve plate 10s, conducting blind hole 22s is with determining The overlapping connection of filter core second interface passage 3s and the 6th through hole 6s on valve block 10s.Under this valve block overlap condition, current are such as Under：The intake tunnel 21s for entering the driven valve block 20s of current of valve body by original water inlet 31s is flowed into fixed valve plate 10s filter core First interface passage 1s and fifth hole 5s, because fifth hole 5s is connected with pure water inlet 32s, so undressed original Water directly flows out from pure water inlet 32s to supply water；Meanwhile, current flow through filter core first interface passage 1s, due to filter core first interface Passage 1s is connected with filter core first interface 38s, so current flow through filter core first interface 38s, by upper collection umbrella 41s, flows into To filter core 44s outside, forward direction is flowed into next part umbrella 43s after rinsing filter material, and being flowed into filter core second by 45s on the inside of filter core connects Mouth 39s, because filter core second interface passage 3s is connected with filter core second interface 39s, so current flow to filter core second interface Passage 3s, by moving valve plate 20s conducting blind hole 22s water conservancy diversion, is flowed into fixed valve plate 10s the 6th through hole 6s, due to the 6th Through hole 6s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.

Embodiment two：

Do not supplied water during flushing, monocyclic six hole fixed valve plate, the scheme of double intake tunnels.

As shown in Fig. 1, Figure 10 to Figure 12, combined using the moving valve plate of determining shown in Figure 10 to Figure 11, a kind of multi-functional control Valve, including valve body 30s, lid 60s, valve rod 61s, the fixed valve plate 10s for the use end face rotary seal cooperation being placed in valve body 30s With moving valve plate 20s, moving valve plate 20s and valve rod 61s connection, original water inlet 31s, pure water inlet 32s, row are provided with valve body 30s It is provided with dirty interface 33s, filter core first interface 38s and filter core second interface 39s, fixed valve plate 10s：First through hole 102s, Two through hole 202s, third through-hole 302s, fourth hole 402s, fifth hole 502s and the 6th through hole 602s, in control valve, the One through hole 102s and the second through hole 202s is interconnected and is connected with filter core first interface 38s, third through-hole 302s and the Four through hole 402s are interconnected and are connected with filter core second interface 39s, and fifth hole 502s is connected with pure water inlet 32s Logical, the 6th through hole 602s is connected with blowdown interface 33s；First be connected with original water inlet 31s is provided with moving valve plate 20s Conducting blind hole 2202s is additionally provided with intake tunnel 2102s and the second intake tunnel 2302s, moving valve plate 20s.Such as Figure 13, figure 15th, shown in Figure 17, fixed valve plate 10s and moving valve plate 20s matching relationship include：First through hole 102s and the first intake tunnel 2102s is connected, and the second through hole 202s is connected with the second intake tunnel 2302s, and third through-hole 302s and fifth hole 502s are with leading Logical blind hole 2202s connections, fourth hole 402s and the passive valve block 20s closings of the 6th through hole 602s are covered；Or third through-hole 302s Connected with the second intake tunnel 2302s, fourth hole 402s is connected with the first intake tunnel 2102s, first through hole 102s and Six through hole 602s are connected with conducting blind hole 2202s, and the second through hole 202s and the passive valve block 20s closings of fifth hole 502s are covered； Or first through hole 102s is connected with the second intake tunnel 2302s, the second through hole 202s is connected with the first intake tunnel 2102s, the Four through hole 402s and the 6th through hole 602s are connected with conducting blind hole 2202s, third through-hole 302s and fifth hole 502s passive valves Piece 20s closings are covered.

Filtering function：As shown in Figure 12 to Figure 13, by rotary valve rod 61s, by the first intake tunnel on moving valve plate 20s 2102s and the second intake tunnel 2302s company overlapping with the first through hole 102s on fixed valve plate 10s and the second through hole 202s respectively It is logical, conducting blind hole 2202s connections overlapping with the third through-hole 302s and fifth hole 502s on fixed valve plate 10s.In this valve block Under overlap condition, current are as follows：Enter the driven valve block 20s of current of valve body the first intake tunnel by original water inlet 31s 2102s and the second intake tunnel 2302s are flowed into fixed valve plate 10s first through hole 102s and the second through hole 202s, because first Through hole 102s and the second through hole 202s are connected with filter core first interface 38s, so current flow through filter core first interface 38s, lead to Collection umbrella 41s is crossed, filter core 44s outside is flowed into, next part umbrella 43s is flowed into after being filtered through filter material, passes through 45s on the inside of filter core Filter core second interface 39s is flowed into, because filter core second interface 39s is connected with fixed valve plate 10s third through-hole 302s, so Current flow to third through-hole 302s, by moving valve plate 20s conducting blind hole 2202s water conservancy diversion, are flowed into the 5th of fixed valve plate 10s Through hole 502s, because fifth hole 502s is connected with pure water inlet 32s, so current flow to pure water inlet 32s water supply.This When, fourth hole 402s and the passive valve block 20s closings of the 6th through hole 602s cover not water flowing, so blowdown interface 33s non-water flows.

Backwash does not supply raw water function simultaneously：As shown in Figure 14 to Figure 15, by rotary valve rod 61s, by moving valve plate 20s First intake tunnel 2102s and the second intake tunnel 2302s respectively with the fourth hole 402s and third through-hole on fixed valve plate 10s The overlapping connections of 302s, conducting blind hole 2202s connections overlapping with the first through hole 102s and the 6th through hole 602s on fixed valve plate 10s. Under this valve block overlap condition, current are as follows：Enter the first of the driven valve block 20s of current of valve body by original water inlet 31s Intake tunnel 2102s and the second intake tunnel 2302s are flowed into fixed valve plate 10s fourth hole 402s and third through-hole 302s, Because third through-hole 302s and fourth hole 402s is interconnected and is connected with filter core second interface 39s, so current stream Through filter core second interface 39s, 45s on the inside of filter core is flowed through, flows through after next part umbrella 43s, back flush filter core 44s, flows through collection umbrella 41s, flows to filter core first interface 38s, because filter core first interface 38s is connected with first through hole 102s, so current are flowed to First through hole 102s, by moving valve plate 20s conducting blind hole 2202s water conservancy diversion, is flowed into fixed valve plate 10s the 6th through hole 602s, because the 6th through hole 602s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.Now, Two through hole 202s and fifth hole 502s are passive, and valve block 20s closings cover not water flowing, so pure water inlet 32s non-water flows.

Just washing while not supplying raw water function：As shown in Figure 16 to Figure 17, by rotary valve rod 61s, by moving valve plate 20s First intake tunnel 2102s and the second intake tunnel 2302s respectively with the second through hole 202s and first through hole on fixed valve plate 10s The overlapping connections of 102s, conducting blind hole 2202s connections overlapping with the fourth hole 402s and the 6th through hole 602s on fixed valve plate 10s. Under this valve block overlap condition, current are as follows：Enter the first of the driven valve block 20s of current of valve body by original water inlet 31s Intake tunnel 2102s and the second intake tunnel 2302s are flowed into fixed valve plate 10s the second through hole 202s and first through hole 102s, Because first through hole 102s and the second through hole 202s are connected with filter core first interface 38s, current flow through filter core first and connect Mouth 38s, by upper collection umbrella 41s, is flowed into filter core 44s outside, forward direction is flowed into next part umbrella 43s after rinsing filter material, passes through filter In-core side 45s is flowed into filter core second interface 39s, because fourth hole 402s is connected with filter core second interface 39s, so water Stream flows to fourth hole 402s, and by moving valve plate 20s conducting blind hole 2202s water conservancy diversion, be flowed into fixed valve plate 10s the 6th is led to Hole 602s, because the 6th through hole 602s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.Now, Third through-hole 302s and fifth hole 502s is passive, and valve block 20s closings cover not water flowing, so pure water inlet 32s non-water flows.

Embodiment three：

Do not supplied water during flushing, monocyclic four hole fixed valve plate, the scheme of single intake tunnel.

As shown in Fig. 1, Figure 18, Figure 19 and Figure 12, combined using the moving valve plate of determining shown in Figure 18 to Figure 19, it is a kind of multi-functional Control valve, including valve body 30s, lid 60s, valve rod 61s, the use end face rotary seal that is placed in valve body 30s coordinate determine valve Original water inlet 31s, pure water inlet are provided with piece 10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connection, valve body 30s It is provided with 32s, blowdown interface 33s, filter core first interface 38s and filter core second interface 39s, fixed valve plate 10s：Filter core first connects Mouthful passage 103s, filter core second interface passage 303s, fifth hole 503s and the 6th through hole 603s, in control valve, filter core the One interface channel 103s is connected with filter core first interface 38s, filter core second interface passage 303s and filter core second interface 39s phases Connection, fifth hole 503s is connected with pure water inlet 32s, and the 6th through hole 603s is connected with blowdown interface 33s；Moving valve plate It is provided with 20s on the intake tunnel 2103s being connected with original water inlet 31s, moving valve plate 20s and is additionally provided with conducting blind hole 2203s.As shown in Figure 20, Figure 21, Figure 22, fixed valve plate 10s and moving valve plate 20s matching relationship include：Filter core first interface leads to Road 103s is connected with intake tunnel 2103s, and filter core second interface passage 303s and fifth hole 503s connects with conducting blind hole 2203s Logical, the 6th through hole 603s is passive, and valve block 20s closings are covered；Or filter core second interface passage 303s is connected with intake tunnel 2103s, Filter core first interface passage 103s and the 6th through hole 603s is connected with conducting blind hole 2203s, the passive valve block 20s of fifth hole 503s Closing is covered；Or filter core first interface passage 103s is connected with intake tunnel 2103s, filter core second interface passage 303s and the 6th Through hole 603s is connected with conducting blind hole 2203s, and fifth hole 503s is passive, and valve block 20s closings are covered.

Compare Figure 18 to Figure 19 and Fig. 2 to Fig. 3, the structure difference of embodiment three and embodiment one is：Embodiment three The intake tunnel 2103s of moving valve plate account for a decile in six decile valve blocks, and the intake tunnel of the moving valve plate of embodiment one 21s account for two deciles in five decile valve blocks.This structure difference generates different functions：Embodiment three is in backwash and just It is not supply raw water when washing, and embodiment one in backwash and supplies raw water when just washing.Three of embodiment three and embodiment one The current of function digit illustrate it is similar, and backwash is only lifted here and does not supply one explanation of raw water function simultaneously, other two functions are just No longer it is described in detail.

Backwash does not supply raw water function simultaneously：As shown in Figure 14, Figure 21, by rotary valve rod 61s, by moving valve plate 20s Intake tunnel 2103s connections overlapping with the filter core second interface passage 303s on fixed valve plate 10s, conducting blind hole 2203s is with determining valve The overlapping connection of filter core first interface passage 103s and the 6th through hole 603s on piece 10s.Under this valve block overlap condition, current It is as follows：The intake tunnel 2103s for entering the driven valve block 20s of current of valve body by original water inlet 31s is flowed into fixed valve plate 10s's Filter core second interface passage 303s, because filter core second interface passage 303s is connected with filter core second interface 39s, so current Filter core second interface 39s is flowed through, 45s on the inside of filter core is flowed through, flows through after next part umbrella 43s, back flush filter core 44s, flow through collection Umbrella 41s, flows to filter core first interface 38s, because filter core first interface 38s is connected with filter core first interface passage 103s, institute Filter core first interface passage 103s is flowed to current, by moving valve plate 20s conducting blind hole 2203s water conservancy diversion, is flowed into and determines valve Piece 10s the 6th through hole 603s, because the 6th through hole 603s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.Now, the passive valve block 20s closings of fifth hole 503s cover not water flowing, so pure water inlet 32s non-water flows.

Filtering function：As shown in Figure 12, Figure 20.

Just washing while not supplying raw water function：As shown in Figure 16, Figure 22.

Example IV：

During flushing for raw water, bicyclic four hole fixed valve plate, single intake tunnel scheme.

As shown in Fig. 1, Fig. 4, Figure 23 and Figure 24, combined using the moving valve plate of determining shown in Figure 23 and Figure 24, it is a kind of multi-functional Control valve, including valve body 30s, lid 60s, valve rod 61s, the use end face rotary seal that is placed in valve body 30s coordinate determine valve Original water inlet 31s, pure water inlet are provided with piece 10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connection, valve body 30s It is provided with 32s, blowdown interface 33s, filter core first interface 38s and filter core second interface 39s, fixed valve plate 10s：Filter core first connects Mouth passage 104s, filter core second interface passage 304s, fifth hole 504s and the 6th through hole 604s, wherein filter core first interface lead to Road 104s, filter core second interface passage 304s and the 6th through hole 604s are arranged in fixed valve plate 10s inner ring, fifth hole 504s In the inner ring and outer rings for being arranged on fixed valve plate 10s.In control valve, filter core first interface passage 104s and filter core first interface 38s is connected, and filter core second interface passage 304s is connected with filter core second interface 39s, fifth hole 504s and pure water inlet 32s is connected, and the 6th through hole 604s is connected with blowdown interface 33s；It is provided with and is connected with original water inlet 31s on moving valve plate 20s Conducting blind hole 2204s is additionally provided with logical intake tunnel 2104s, moving valve plate 20s.As shown in Figure 25, Figure 26, Figure 27, valve is determined Piece 10s and moving valve plate 20s matching relationship include：Filter core first interface passage 104s is connected with intake tunnel 2104s, filter core Two interface channel 304s and fifth hole 504s are connected with conducting blind hole 2204s, and the 6th through hole 604s is passive, and valve block 20s closings hide Lid；Or filter core second interface passage 304s is connected with intake tunnel 2104s, fifth hole 504s is connected with original water inlet 31s, filter Core first interface passage 104s and the 6th through hole 604s is connected with conducting blind hole 2204s；Or filter core first interface passage 104s with Intake tunnel 2104s is connected, and fifth hole 504s is connected with original water inlet 31s, and filter core second interface passage 304s and the 6th leads to Hole 604s is connected with conducting blind hole 2204s.

Filtering function：As shown in Fig. 4, Figure 25, by rotary valve rod 61s, by the intake tunnel 2104s on moving valve plate 20s Filter core on connection overlapping with the filter core first interface passage 104s on fixed valve plate 10s, conducting blind hole 2204s and fixed valve plate 10s Second interface passage 304s is overlapping with fifth hole 504s to be connected.Under this valve block overlap condition, current are as follows：Pass through raw water Import 31s into the driven valve block 20s of current of valve body intake tunnel 2104s are flowed into fixed valve plate 10s filter core first interface Passage 104s, because filter core first interface passage 104s is connected with filter core first interface 38s, current flow through filter core first Interface 38s, by upper collection umbrella 41s, is flowed into filter core 44s outside, next part umbrella 43s is flowed into after being filtered through filter material, is passed through 45s is flowed into filter core second interface 39s on the inside of filter core, due to filter core second interface 39s and fixed valve plate 10s filter core second interface Passage 304s is connected, so current flow to filter core second interface passage 304s, passes through moving valve plate 20s conducting blind hole 2204s Water conservancy diversion, be flowed into fixed valve plate 10s fifth hole 504s, because fifth hole 504s is connected with pure water inlet 32s, so Current flow to pure water inlet 32s water supply.Now, the passive valve block 20s closings of the 6th through hole 604s cover not water flowing, so blowdown connects Mouth 33s non-water flows.

Backwash supplies raw water function simultaneously：As shown in Fig. 6, Figure 26, by rotary valve rod 61s, by the water inlet on moving valve plate 20s Passage 2104s connections overlapping with the filter core second interface passage 304s on fixed valve plate 10s, conducting blind hole 2204s and fixed valve plate 10s On filter core first interface passage 104s and the 6th through hole 604s overlapping connection because fixed valve plate 10s fifth hole 504s Part on outer shroud does not have passive valve block 20s to cover, so fifth hole 504s is connected with original water inlet 31s.At this Plant under valve block overlap condition, current are as follows：Divide two-way into fixed valve plate 10s, one by the original water inlet 31s current for entering valve body Road current enter fifth hole by the impassive valve block 20s fifth hole 504s covered the partial through holes being located on outer shroud 504s, because fifth hole 504s is connected with pure water inlet 32s, so undressed raw water is directly from pure water inlet 32s Outflow is supplied water；While the filter core second that another driven valve block 20s of road current intake tunnel 2104s is flowed into fixed valve plate 10s connects Mouthful passage 304s, because filter core second interface passage 304s is connected with filter core second interface 39s, so current flow through filter core the Two interface 39s, flow through 45s on the inside of filter core, flow through after next part umbrella 43s, back flush filter core 44s, flow through collection umbrella 41s, flow to Filter core first interface 38s, because filter core first interface 38s is connected with filter core first interface passage 104s, so current are flowed to Filter core first interface passage 104s, by moving valve plate 20s conducting blind hole 2204s water conservancy diversion, is flowed into the 6th of fixed valve plate 10s Through hole 604s, because the 6th through hole 604s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.

Just washing while supplying raw water function：As shown in Fig. 8, Figure 27, by rotary valve rod 61s, by the water inlet on moving valve plate 20s Passage 2104s connections overlapping with the filter core first interface passage 104s on fixed valve plate 10s, conducting blind hole 2204s and fixed valve plate 10s On filter core second interface passage 304s and the 6th through hole 604s overlapping connection because fixed valve plate 10s fifth hole 504s Part on outer shroud does not have passive valve block 20s to cover, so fifth hole 504s is connected with original water inlet 31s.At this Plant under valve block overlap condition, current are as follows：Divide two-way into fixed valve plate 10s, one by the original water inlet 31s current for entering valve body Road current enter fifth hole by the impassive valve block 20s fifth hole 504s covered the partial through holes being located on outer shroud 504s, because fifth hole 504s is connected with pure water inlet 32s, so undressed raw water is directly from pure water inlet 32s Outflow is supplied water；While the filter core first that another driven valve block 20s of road current intake tunnel 2104s is flowed into fixed valve plate 10s connects Mouthful passage 104s, because filter core first interface passage 104s is connected with filter core first interface 38s, so current flow through filter core the One interface 38s, by upper collection umbrella 41s, is flowed into filter core 44s outside, forward direction is flowed into next part umbrella 43s after rinsing filter material, leads to 45s is flowed into filter core second interface 39s on the inside of filtration core, due to filter core second interface passage 304s and filter core second interface 39s It is connected, so current flow to filter core second interface passage 304s, passes through moving valve plate 20s conducting blind hole 2204s water conservancy diversion, stream Enter the 6th through hole 604s to fixed valve plate 10s, because the 6th through hole 604s is connected with blowdown interface 33s, so current pass through Blowdown interface 33s drainings.

Embodiment five：

As shown in Fig. 1, Fig. 4, Figure 24, Figure 28, combined using the moving valve plate of determining shown in Figure 28 and Figure 24, a kind of Multifunctional controlling Valve processed, including valve body 30s, lid 60s, valve rod 61s, the fixed valve plate for the use end face rotary seal cooperation being placed in valve body 30s Be provided with 10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connection, valve body 30s original water inlet 31s, pure water inlet 32s, It is provided with blowdown interface 33s, filter core first interface 38s and filter core second interface 39s, fixed valve plate 10s：Filter core first interface leads to Road 105s, filter core second interface passage 305s, fifth hole 505s and the 6th through hole 605s, wherein filter core first interface passage 105s, filter core second interface passage 305s and the 6th through hole 605s are arranged in fixed valve plate 10s inner ring, and fifth hole 505s is set Put on fixed valve plate 10s outer shroud.In control valve, filter core first interface passage 105s is connected with filter core first interface 38s, Filter core second interface passage 305s is connected with filter core second interface 39s, and fifth hole 505s is connected with pure water inlet 32s, 6th through hole 605s is connected with blowdown interface 33s；The water inlet being connected with original water inlet 31s is provided with moving valve plate 20s to lead to Conducting blind hole 2204s is additionally provided with road 2104s, moving valve plate 20s.As shown in Figure 29, Figure 30, Figure 31, fixed valve plate 10s and dynamic valve Piece 20s matching relationship includes：Filter core first interface passage 105s is connected with intake tunnel 2104s, filter core second interface passage 305s and fifth hole 505s is connected with conducting blind hole 2204s, and the 6th through hole 605s is passive, and valve block 20s closings are covered；Or filter core Second interface passage 305s is connected with intake tunnel 2104s, and fifth hole 505s is connected with original water inlet 31s, and filter core first connects Mouth passage 105s and the 6th through hole 605s is connected with conducting blind hole 2204s；Or filter core first interface passage 105s and intake tunnel 2104s is connected, and fifth hole 505s connects with original water inlet 31s, filter core second interface passage 305s and the 6th through hole 605s and Turn on blind hole 2204s connections.

Compare Figure 28 and Figure 23, the structure difference of embodiment five and example IV is：The fifth hole of embodiment five 505s is located on outer shroud, and the fifth hole 504s of example IV is located in inner ring and outer rings.So embodiment five and embodiment Four current logic is similar, repeats no more here.

Filtering function：As shown in Fig. 4, Figure 29.

Backwash supplies raw water function simultaneously：As shown in Fig. 6, Figure 30.

Just washing while supplying raw water function：As shown in Fig. 8, Figure 31.

With reference to shown in Figure 32 A to Figure 35 of accompanying drawing of the present invention, explained according to the flow-controlled device of the 6th preferred embodiment of the invention Bright, it is applied to the multidirectional flowing of control current, and wherein the flow-controlled device includes a first flow control element 10D and one rotatable Ground is located at the first flow control element 10D the second flow control element 20D, and wherein the first flow control element 10D includes one first control Body 11D is flowed, the first flow control body 11D includes a top ends 111D, one first control of wherein top ends 111D formation Stream interface 100D；Second flow control element 20D includes a second flow control body 21D, and the second flow control body 21D has a bottom End 211D and a high end 212D upwardly extended from bottom 211D, bottom 211D one the second flow control of formation Face 200D；Wherein the first flow control element 10D the first flow control face 100D is suitable to second control with the second flow control element 20D Stream interface 200D is in contact.

As shown in Figure 32 B to Figure 32 D of accompanying drawing, further, as shown in Figure 33 A to Figure 33 D of accompanying drawing, the flow-controlled device First flow control element 10D top ends 111D includes the first central part 1111D, a first edge portion 1112D and one The the first pars intermedia 1113D extended between the first central part 1111D and first edge portion 1112D, second flow control member Part 20D bottom 211D include the second central part 2111D, a second edge portion 2112D and one extend in this The second pars intermedia 2113D between two central part 2111D and second edge portion 2112D, the wherein flow-controlled device have one first Passage 101D, second channel 102D, third channel 103D, fourth lane 104D, a 7th passage 107D With a 9th passage 109D, wherein first passage 101D, second channel 102D, third channel 103D and fourth lane 104D It is respectively arranged on the first flow control element 10D the first flow control body 11D；7th passage 107D and the 9th passage 109D are set respectively In second flow control body 21D, wherein first passage 101D, second channel 102D, third channel 103D and fourth lane First flow control face 100Ds of the 104D respectively from the first flow control element 10D the first flow control body 11D is extended downwardly；Wherein this Seven passage 107D from the second flow control body 21D bottom 211D the second flow control face 200D upwardly extend and from this second control Stream body 21D bottom 211D the second pars intermedia 2113D stretches out and forms one to be connected with exterior space all the time The first lead-through opening 1071D；9th passage 109D is from the second flow control body 21D bottom 211D the second flow control face 200D extends upwardly to the second flow control element 20D the second flow control body 21D high end 212D.In other words, the 7th Passage 107D the first lead-through opening 1071D can keep the 7th passage 107D all the time with exterior space, especially with flow-controlled device Exterior space be connected.Preferably, the first passage 101D of the flow-controlled device, second channel 102D and fourth lane 104D difference Being somebody's turn to do for top ends 111D is extended to from the first flow control body 11D top ends 111D the first pars intermedia 1113D is inwardly outer First central part 1111D；First pars intermedias of the third channel 103D from the first flow control body 11D top ends 111D 1113D extends inwardly to top ends 111D the first central part 1111D and extends out to first edge portion 1112D； 7th passage 107D of the flow-controlled device from the second flow control element 20D the second flow control body 21D bottom 211D Two pars intermedia 2113D stretch out；Second flow control bodies of the 9th passage 109D of the flow-controlled device from the second flow control element 20D 21D bottom 211D the second pars intermedia 2113D extends out to bottom 211D second edge portion 2112D.

As shown in Figure 34 A to Figure 34 D of accompanying drawing, the second flow control element 20D can be rotated relative to the first flow control element 10D So that the flow-controlled device has first working position, second working position, the 3rd working position and the 4th work Make position, wherein when flow-controlled device is in the first working position, the 7th passage 107D of flow-controlled device is connected with first passage 101D, control 9th passage 109D of stream device is connected with second channel 102D and third channel 103D respectively；When flow-controlled device is in the second work Position when, the 7th passage 107D of flow-controlled device is connected with second channel 102D, the 9th passage 109D respectively with first passage 101D It is connected with fourth lane 104D, the first of the third channel 103D of the flow-controlled device and the first flow control element 10D of the flow-controlled device Flow control body 11D upper outer space is connected；When flow-controlled device is in three working positions, the 7th passage 107D of flow-controlled device It is connected with first passage 101D, the 9th passage 109D of flow-controlled device is connected with second channel 102D and fourth lane 104D respectively It is logical, outside the third channel 103D of the flow-controlled device and the first flow control element 10D of the flow-controlled device the first flow control body 11D top Portion space is connected；When flow-controlled device is in four working positions, the 7th passage 107D of flow-controlled device is connected with third channel 103D It is logical.Preferably, when flow-controlled device is in four working positions, the 9th passage 109D of flow-controlled device is connected with fourth lane 104D. It is highly preferred that when flow-controlled device is in the first working position, the fourth lane 104D of the flow-controlled device is by the of the second flow control element 20D Two flow control body 21D block, the second flow control element 20D the second flow control body 21D respectively by second channel 102D and this Triple channel 103D and the flow-controlled device upper outer spaced apart；When flow-controlled device is in the second working position, second flow control Element 20D the second flow control body 21D is respectively by first passage 101D and fourth lane 104D and the flow-controlled device top Exterior space is spaced；When flow-controlled device is in three working positions, the second flow control element 20D 21D points of the second flow control body Not by second channel 102D and fourth lane 104D and the upper outer spaced apart of the flow-controlled device；When flow-controlled device is in During four working positions, the first passage 101D and second channel 102D of the flow-controlled device are respectively by the second of the second flow control element 20D Flow control body 21D blocks, and the second flow control element 20D the second flow control body 21D is by fourth lane 104D and the flow-controlled device Upper outer spaced apart.

As shown in Figure 33 A to Figure 33 D of accompanying drawing, the first of the first flow control element 10D of flow-controlled device top ends 111D Central part 1111D has a first nodal point 1110D, the second flow control element 20D bottom 211D the second central part 2111D has a second central point 2110D, wherein the second flow control element 20D the second flow control body 21D bottom 211D second edge portion 2112D has outward flange 21121D, and the third channel 103D of the flow-controlled device has one the Triple channel edge 1031D, wherein first nodal point 1110F and third channel edge 1031F are in the first flow control face 100F, the second central point 2110F and outward flange 21121F are in second flow control face 200F, wherein first central part 1111D first nodal point 1110D to third channel 103D third channel edge 1031D ultimate range is L1D, and this Two central part 2111D the second central point 2110D is to the second flow control element 20D bottom 211D second edge portion 2112D outward flange 21121D ultimate range is L2D, and the wherein L1D is more than the L2D.

As shown in Figure 33 A to Figure 33 D of accompanying drawing, the second flow control element 20D the second flow control body 21D further comprises One extension 213D, the 9th passage 109D have a 9th channel edge 1091D, wherein extension 213D from this Two flow control body 21D high end 212D stretches out and extends downward into the 9th passage 109D the 9th channel edge 1091D, and causing when the flow-controlled device is in the first working position, the second flow control element 20D the second flow control body 21D can be by Third channel 103D and the flow-controlled device upper outer spaced apart.Preferably, the 9th passage 109D energy of the flow-controlled device Enough extension 213D that the second flow control element 20D is extended out to from bottom 211D second edge portion 2112D.Value Obtain first passage 101D, second channel 102D, third channel 103D and fourth lane 104D difference it is to be noted that the flow-controlled device It is located at the first flow control body 11D of the first flow control element with being spaced from each other；7th passage 107D and the 9th passage 109D It is located at the second flow control element 20D the second flow control body 21D with being spaced from each other respectively.

As shown in Figure 33 A to Figure 33 D of accompanying drawing, the first flow control element 10D of the flow-controlled device the first flow control face 100D and Second flow control element 20D the second flow control face 200D is circle, the first passage 101D of the flow-controlled device, fourth lane 104D, Second channel 102D and third channel 103D is deasil arranged in the first flow control element 10D the first flow control sheet with this order Body 11D；The 7th passage 107D and the 9th passage 109D of the flow-controlled device are deasil arranged in second flow control member with this order Part 20D the second flow control body 21D.Alternatively, the flow-controlled device is set first passage 101D, fourth lane 104D, second channel 102D and third channel 103D can also this order be widdershins arranged in the first flow control element 10D the first flow control body 11D；The 7th passage 107D and the 9th passage 109D of the flow-controlled device are widdershins arranged in second flow control with this order simultaneously Element 20D the second flow control body 21D.

Preferably, first passage 101D, fourth lane 104D, second channel 102D and third channel 103D be radially Located at the first flow control element 10D the first flow control face 100D, and the 7th passage 107D and the 9th passage 109D are radially Located at the second flow control element 20D the second flow control face 200D.

It is highly preferred that first passage 101D is extended downwardly from the first flow control element 10D the first flow control face 100D；Should Second channel 102D is extended downwardly from the first flow control element 10D the first flow control face 100D；Third channel 103D from this One flow control element 10D the first flow control face 100D extend downwardly and stretch out and fourth lane 104D from first flow control member Part 10D the first flow control face 100D is extended downwardly and stretched out.Further, the second flow control element 20D the second flow control Face 200D shapes and sizes according to the first flow control element 10D the first flow control face 100D design shape so that this second Flow control element 20D the second flow control face 200D is suitable to the first flow control face 100D located at the first flow control element 10D, and this Two flow control element 20D relative to the first flow control element 10D rotate when, regulation located at the first flow control element 10D the first flow control sheet Body 11D first passage 101D, fourth lane 104D, second channel 102D and third channel 103D respectively with located at this second control Fluid element 20D the second flow control body 21D the 7th passage 107D and the 9th passage 109D connection, to control current in this hair Flowed in the different passages of bright flow-controlled device.

As shown in accompanying drawing 33A to Figure 33 D, the first flow control element 10D of the flow-controlled device the first flow control face 100D has one Core 1000D shown in individual figure chain lines, wherein core 1000D located at the first flow control element 10D the One flow control body 11D top ends 111D the first central part 1111D, the second flow control element 20D of the flow-controlled device the second control Stream interface 200D has the central area 2000D shown in a figure chain lines, and wherein central area 2000D is located at second control Fluid element 20D the second flow control body 21D bottom 211D the second central part 2111D, the wherein flow-controlled device the first control Fluid element 10D the first flow control face 100D core 1000D is provided with a first nodal point 1110D, and second flow control Element 20D the second flow control face 200D central area 2000D is provided with a second central point 2110D, wherein first flow control Part outside face 100D core 1000D can be by suitable by first nodal point 1110D the first blueline 10002D Hour hands are divided into a Part I 1001D, Part II 1002D, Part III 1003D, one shown in chain-dotted line Individual Part IV 1004D, a Part V 1005D and a Part VI 1006D；Second flow control face 200D center Part outside the 2000D of domain can be divided into chain-dotted line clockwise by second central point 2110D the second blueline 20002D A shown first area 2001D, second area 2002D, the 3rd region 2003D, the 4th region 2004D, a 5th region 2005D and a 6th region 2006D；Wherein the first flow control element 10D the first flow control face The central angle alpha 1D of 100D every adjacent two blueline 10002D formation is equal in magnitude；Second flow control element 20D the second control The central angle alpha 2D of stream interface 200D every adjacent two blueline 20002D formation is equal in magnitude, and wherein first passage 101D is certainly First flow control face 100D Part I 1001D and Part II 1002D is extended downwardly；Second channel 102D from this first control Fluid element 10D the first flow control face 100D Part V 1005D is extended downwardly；Third channel 103D is from the first flow control face 100D Part VI 1006D is extended downwardly；Fourth lane 104D is from the first flow control face 100D Part III 1003D and Four part 1004D are extended downwardly；7th passage 107D from second flow control face 200D first area 2001D are upwardly extended； 9th passage 109D from second flow control face 200D the 4th region 2004D and the 5th region 2005D are upwardly extended.

As shown in Figure 32 B and Figure 35 of accompanying drawing, the flow-controlled device according to the 6th preferred embodiment of the invention further comprises one Shell 30D, and the first flow control element 10D of the flow-controlled device the first flow control body 11D further comprise one from the top The end portion 112D that portion 111D is extended downwardly, wherein shell 30D include an outer cover body 31D, wherein outer cover body 31D Outwardly and upwardly extend from the first flow control element 10D the first flow control body 11D end portion 112D and enclose and be set as one One accommodating chamber 310D, so that outer cover body 31D is formed with a madial wall 311D, a lateral wall 312D and one is opened The upper end open 3101D, wherein the first accommodating chamber 310D and the 7th passage 107D of mouth upward the first lead-through opening 1071D It is connected, wherein the second flow control element 20D is suitable to the second flow control face 200D and is located at the first accommodating chamber 310D facing downward and sets In the first flow control element 10D the first flow control face 100D.Preferably, the first passage 101D of the flow-controlled device and the second channel 102D extends downwardly and run through the first of the first flow control element 10D from the first flow control element 10D the first flow control face 100D Flow control body 11D end portion 112D.

As shown in Figure 32 B of accompanying drawing, further, shell 30D has one the 3rd opening 303D, the 4th opening 304D and one the 7th 307D that is open, the wherein the 3rd opening 303D is connected with third channel 103D, the 4th opening 304D It is connected with fourth lane 104D, the 7th opening 307D is connected with first accommodating chamber 310D.In other words, the third channel 103D is extended downwardly from the first flow control element 10D the first flow control face 100D and controlled from the first of the first flow control element 10D Stream body 11D end portion 112D stretches out to be connected with the 3rd opening 303D；Fourth lane 104D from this first Flow control element 10D the first flow control face 100D is extended downwardly and from the low of the first flow control element 10D the first flow control body 11D End 112D stretches out to be connected with the 4th opening 304D.Preferably, the first flow control element 10D the first flow control sheet Body 11D end portion 112D and the shell 30D outer cover body 31D madial wall 311D are integrally formed.It is highly preferred that the 3rd Opening 303D, the 4th opening 304D and the 7th opening 307D are respectively arranged on shell 30D outer cover body 31D.

It should be understood that when the flow-controlled device is in first working position, the second flow control element 20D the second flow control Body 21D is respectively by the shell 30D of second channel 102D and third channel 103D and the flow-controlled device first receiving Room 310D is spaced；When the flow-controlled device is in second working position, the third channel 103D's and shell 30D of the flow-controlled device First accommodating chamber 310D is connected, the second flow control element 20D the second flow control body 21D respectively by first passage 101D and The fourth lane 104D and shell 30D of the flow-controlled device first accommodating chamber 310D is spaced；When the flow-controlled device is in this During three working positions, the third channel 103D and shell 30D of the flow-controlled device the first accommodating chamber 310D are connected, second control Fluid element 20D the second flow control body 21D respectively by second channel 102D and fourth lane 104D and the flow-controlled device should Shell 30D first accommodating chamber 310D is spaced；When the flow-controlled device is in four working positions, the second flow control element 20D the second flow control body 21D is by the fourth lane 104D and shell 30D of the flow-controlled device the first accommodating chamber 310D phases Separate.

As shown in Figure 32 B of accompanying drawing, the flow-controlled device further comprises that is detachably arranged at the first flow control element 10D There is a wear-resisting body 41D with the anti-wear component 40D between the second flow control element 20D, wherein anti-wear component 40D, wherein The wear-resisting body 41D has a wearing face for being suitable to be in contact with the second flow control body 21D the second flow control face 200D 410D, wherein wearing face 410D passes through Wear-resistant Treatment, so as to reduce the second flow control element 20D the second flow control sheet Produced frictional force when body 21D is relative to the first flow control element 10D the first flow control body 11D rotations, so as to extend the control Flow the service life of device.Further, anti-wear component 40D size and shape and the first flow control element 10D of the flow-controlled device The first flow control face 100D it is corresponding and wear-resisting body 41D of anti-wear component 40D is formed with one first and connect with being spaced from each other Mouth 401D, second interface 402D, wherein a 3rd interface 403D and a 4th interface 404D, the first interface 401D, second interface 402D, the 3rd interface 403D and the 4th interface 404D shape and size respectively with the flow-controlled device first Passage 101D, second channel 102D, third channel 103D are corresponding with fourth lane 104D.Preferably, as anti-wear component 40D When between the first flow control element 10D and the second flow control element 20D of the flow-controlled device, anti-wear component 40D does not occur Relative to the first flow control element 10D the first flow control body 11D rotation.It is highly preferred that anti-wear component 40D has a warp Smoothing processing is to reduce the wearing face 410D of its degree of roughness.Most preferably, anti-wear component 40D first interface Run through wear-resisting of anti-wear component 40D above and below 401D, second interface 402D, the 3rd interface 403D and the 4th interface 404D difference Body 41D, so that when the second flow control element 20D the second flow control body 21D is with respect to the first of the first flow control element 10D When flow control body 11D is rotated, anti-wear component 40D first interface 401D, second interface 402D, the 3rd interface 403D and the Four interface 404D respectively selectively by located at the first flow control element 10D the first flow control body 11D first passage 101D, Second channel 102D, third channel 103D and fourth lane 104D and the second flow control sheet located at the second flow control element 20D Body 21D the 7th passage 107D and the 9th passage 109D are connected.

As shown in Figure 32 B of accompanying drawing, the flow-controlled device further comprises second flow control from the second flow control element 20D Driving element 60D and a potted component 70D upwardly extended from driving element 60D that body 21D is upwardly extended, wherein should Driving element 60D is suitable to the second flow control body 21D for driving the second flow control element 20D of the flow-controlled device with respect to first flow control member Part 10D the first flow control body 11D rotates；Wherein potted component 70D is suitable to the madial wall 311D located at shell 30D To seal first accommodating chamber 310D, so as to prevent fluid in first accommodating chamber 310D from the upper of first accommodating chamber 310D End opening 3101D flows out.Preferably, potted component 70D is in contact with driving element 60D and suitable for by the driving element 60D is held in place by, so as to keep the second flow control element 20D the second flow control body 21D to be in appropriate location.

As shown in Figure 32 E to Figure 32 F of accompanying drawing, the shell 30D of flow-controlled device outer cover body 31D is first from first flow control Part 10D the first flow control body 11D end portion 112D, which is extended downwardly and enclosed, is set as a second accommodating chamber 320D, wherein this Two accommodating chamber 320D are located at the first flow control element 10D the first flow control body 11D end portion 112D lower section.As accompanying drawing it Shown in Figure 32 F, flow-controlled device of the present invention further comprises a flow blocking element 80D for being located at second accommodating chamber 320D, wherein should Flow blocking element 80D is extended downwardly from the first flow control body 11D, the wherein flow blocking element 80D and shell 30D madial wall 311D formation one is located at first leading between the flow blocking element 80D and shell 30D outer cover body 31D madial wall 311D Flow chamber 801D, flow blocking element 80D, which enclose, is set as a second diversion chamber 802D.The wherein first passage 101D of the flow-controlled device certainly should First flow control element 10D the first flow control face 100D is extended downwardly, and is connected with first diversion chamber 801D；The flow-controlled device Second channel 102D extended downwardly from the first flow control element 10D the first flow control face 100D and with the second diversion chamber 802D phases Connection.Preferably, the first passage 101D of the flow-controlled device is extended downwardly from the first flow control element 10D the first flow control face 100D And through the first flow control element 10D the first flow control body 11D end portion 112D to be connected with first diversion chamber 801D It is logical；The second channel 102D of the flow-controlled device is extended downwardly from the first flow control element 10D the first flow control face 100D and is run through this First flow control element 10D the first flow control body 11D end portion 112D with second diversion chamber 802D to be connected.

Figure 32 G of accompanying drawing show a kind of optional implementation of the flow-controlled device according to present pre-ferred embodiments, and wherein this is optional Implementing the shell 30D of flow-controlled device further has 301D and one second opening 302D of one first opening, the wherein flow-controlled device First passage 101D extended downwardly from the first flow control element 10D the first flow control face 100D and from the first flow control element 10D the first flow control body 11D end portion 112D stretches out to be connected with first opening 301D；The second channel 102D is extended downwardly from the first flow control element 10D the first flow control face 100D and controlled from the first of the first flow control element 10D Stream body 11D end portion 112D stretches out to be connected with second opening 302D；Third channel 103D from this first Flow control element 10D the first flow control face 100D is extended downwardly and from the low of the first flow control element 10D the first flow control body 11D End 112D stretches out to be connected with the 3rd opening 303D；With fourth lane 104D from the first flow control element 10D The first flow control face 100D extend downwardly and from the first flow control element 10D the first flow control body 11D end portion 112D to It is outer to extend to be connected with the 4th opening 304D；The first accommodating chamber 310D is connected with the 7th opening 307D.Preferably, First flow control element 10D the first flow control body 11D end portion 112D and the shell 30D outer cover body 31D inner side Wall 311D is integrally formed.It is highly preferred that first opening 301D, the second opening 302D, the 3rd opening 303D, the 4th opening 304D Shell 30D outer cover body 31D is respectively arranged on the 7th opening 307D.

It is worth noting that, when this is optional implement flow-controlled device shell 30D have the first opening 301D and this second open Mouthful 302D, and the first passage 101D of the flow-controlled device is connected with first 301D that is open；Second channel 102D with this second When opening 302D is connected, the flow-controlled device will not need the flow blocking element 80D of the flow-controlled device of present pre-ferred embodiments.

Figure 35 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system is included extremely A few flow-controlled device 1D and at least one water treatment facilities, such as unit for treating water 90D, wherein unit for treating water 90D are applied to Accessing pending water is handled, wherein unit for treating water 90D is connected with flow-controlled device 1D.

As shown in Figure 35 of accompanying drawing, the unit for treating water 90D according to the 6th preferred embodiment of the invention is included at a water Element 91D is managed, wherein water process element 91D has a first open communication 9101D and second open communication 9102D, wherein the accessing pending water from flow-controlled device is suitable to the first connection of the water process element 91D from unit for treating water 90D Water, the wherein processing after opening 9101D flows into the water process element 91D and handled after being handled through water process element 91D Water is suitable to flow out from water process element 91D the second open communication 9102D afterwards.Alternatively, the accessing pending water from flow-controlled device Also water process element 91D can be flowed into from unit for treating water 90D water process element 91D the second open communication 9102D, and Water after being handled after being handled through water process element 91D, and the first open communication 9101D streams from water process element 91D Go out.

It is worth noting that first diversion chamber 801D is suitable to connect with the first of the water process element 91D of the water treatment system A mouthful 9101D is opened up to be connected, and second diversion chamber 802D is suitable to the second open communication 9102D with water process element 91D It is connected.As shown in Figure 35 of accompanying drawing, according to the unit for treating water 90D of the 6th preferred embodiment of the invention water process element 91D includes an a water process body 911D and liquid collecting element 912D, and wherein water process element 91D first connection is opened Mouth 9101D and the second open communication 9102D is separated by respectively to turn up the soil located at water process body 911D, wherein liquid collecting element 912D In water process body 911D and to the second open communication 9102D directions extend, and with second open communication 9102D It is connected, wherein accessing pending water is suitable to flow into water process member by water process element 91D first open communication 9101D Part 91D, and the water after being handled after water process element 91D water process body 911D processing, wherein after the processing Water is suitable to flow to the liquid collecting element 912D and flowed out from liquid collecting element 912D.In other words, accessing pending water is suitable to from the water Reason element 91D the first open communication 9101D flows into the water process element 91D and the water process sheet through water process element 91D Body 911D processing, with water after being handled, current direction liquid collecting element 912D and through liquid collecting element 912D wherein after the processing After concentration, flowed out through second open communication 9102D.Preferably, liquid collecting element 912D has a tubular structure.More preferably Ground, is made in materials of the unit for treating water 90D water process element 91D including a water process body 911D and contains at least one Plant material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.

As shown in Figure 35 of accompanying drawing is the operating diagram of the water treatment facilities using flow-controlled device of the present invention, wherein when this When the flow-controlled device 1D of water treatment system is in the first working position, the 7th of the shell 30D that accessing pending water passes through flow-controlled device 1D opens The first conducting for the 7th passage 107D that mouth 307D flows into shell 30D the first accommodating chamber 310D and passes through flow-controlled device 1D is opened Mouth 1071D flows into the 7th passage 107D, and subsequent accessing pending water flows into flow-controlled device 1D first passage 101D, and through the flow control Device 1D the first diversion chamber 801D flows to water process element 91D the first open communication 9101D, and through the first open communication 9101D flows into the water process element 91D and water after the water process body 911D processing through water process element 91D is handled, Water flows to water process element 91D the second open communication 9102D through liquid collecting element 912D wherein after the processing, then through being somebody's turn to do Second open communication 9102D flows to flow-controlled device 1D the second diversion chamber 802D, and should through the second diversion chamber 802D inflows after Flow-controlled device 1D second channel 102D, then the guiding of the 9th passage 109D through flow-controlled device 1D flow into flow-controlled device 1D threeway Road 103D, and the through shell 30D the 3rd opening 303D are flowed out so that user uses；Wherein when the flow control of the water treatment system When device 1D is in the second working position, the 7th opening 307D for the shell 30D that accessing pending water passes through flow-controlled device 1D flows into the shell 30D the first accommodating chamber 310D and the 7th passage 107D for passing through flow-controlled device 1D the first lead-through opening 1071D and threeway Road 103D flows into the 7th passage 107D and third channel 103D, wherein the accessing pending water for flowing into the 7th passage 107D then flows Enter flow-controlled device 1D second channel 102D, the second diversion chamber 802D through flow-controlled device 1D flows to water process element 91D, and The second open communication 9102D through water process element 91D flows into liquid collecting element 912D, is then flowed from liquid collecting element 912D Enter water process element 91D, and back flush water process element 91D water process body 911D, the waste liquid produced after flushing The first open communication 9101D through water process element 91D flows out, subsequently the first diversion chamber 801D streams through flow-controlled device 1D Enter flow-controlled device 1D first passage 101D, and the guiding of the 9th passage 109D through flow-controlled device 1D flows through the of flow-controlled device 1D Four-way 104D, then the 4th opening 304D outflows through shell 30D, wherein flowing into third channel 103D water through the shell 30D the 3rd opening 303D outflows use for user；When the flow-controlled device 1D of the water treatment system is in three working positions, The 7th opening 307D for the shell 30D that accessing pending water passes through flow-controlled device 1D flows into shell 30D the first accommodating chamber 310D, and 7th passage is flowed into by flow-controlled device 1D the 7th passage 107D the first lead-through opening 1071D and third channel 103D 107D and third channel 103D, wherein the accessing pending water for flowing into the 7th passage 107D subsequently flow into flow-controlled device 1D first lead to Road 101D, the first diversion chamber 801D through flow-controlled device 1D flow into water process element 91D the first open communication 9101D, and Forward direction rinses water process element 91D water process body 911D, and the waste liquid produced after flushing is flowed to through liquid collecting element 912D Water process element 91D the second open communication 9102D, and flow into the of flow-controlled device 1D through second open communication 9102D Two diversion chamber 802D, then flow into flow-controlled device 1D second channel 102D through second diversion chamber 802D, then through the flow-controlled device 1D the 9th passage 109D pilot flow direction flow-controlled devices 1D fourth lane 104D, then through shell 30D the 4th opening 304D flows out, wherein flowing into threeth opening 303D outflow of the third channel 103D water through shell 30D so that user uses； When the flow-controlled device 1D of the water treatment system is in four working positions, the of the shell 30D that accessing pending water passes through flow-controlled device 1D Seven opening 307D flow into shell 30D the first accommodating chamber 310D, and first of the 7th passage 107D by flow-controlled device 1D Lead-through opening 1071D flows into the 7th passage 107D, and subsequent accessing pending water flows into flow-controlled device 1D third channel 103D, through this Shell 30D the 3rd opening 303D outflows use for user, the flow-controlled device 1D first passage 101D and second channel 102D is blocked by flow-controlled device 1D the second flow control element 20D the second flow control body 21D.In other words, the water process element 91D and first accommodating chamber 310D are isolated.

It is understood that when further there is the shell 30D of flow-controlled device of the present invention one to lead to the first of the flow-controlled device The second opening 302D that the first opening 301D and one that road 101D is connected is connected with the second channel 102D of the flow-controlled device When, the unit for treating water 90D of water treatment system water process element 91D the first open communication 9101D be suitable to this first Opening 301D be connected, and the water treatment system unit for treating water 90D water process element 91D the second open communication 9102D is suitable to be connected with second opening 302D.

It is worth noting that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention System is suitable to after accessing pending water is handled and handled water after water, and the processing and is suitable to the control for passing through the water treatment system The shell 30D of device the 3rd opening 303D outflows are flowed, so that user uses；This is in when user adjusts flow-controlled device of the present invention During the second working position, water treatment system of the present invention is suitable to adjust water process element 91D of the accessing pending water to the water treatment system Back flush is carried out, and the obtained waste water of back flush is suitable to the 4th of the shell 30D of the flow-controlled device from the water treatment system Opening outflow, while shell 30D of the accessing pending water through the flow-controlled device the 3rd opening 303D outflows；When user adjusts the present invention When flow-controlled device is in three working positions, water treatment system of the present invention is suitable to adjust water of the accessing pending water to the water treatment system Treatment element 91D carries out positive flushing, and the positive obtained waste water that rinses is suitable for the outer of the flow-controlled device from the water treatment system Shell 30D the 4th opening 304D outflows, while shell 30D of the accessing pending water through the flow-controlled device the 3rd opening 303D outflows；When When user adjusts flow-controlled device of the present invention and is in four working positions, water treatment system of the present invention be suitable to the regulation accessing pending water from The shell 30D of the flow-controlled device the 3rd opening 303D outflows, so that user uses, simultaneously because water process element 91D is with being somebody's turn to do First accommodating chamber 310D of flow-controlled device is isolated, in order to user in the state of not cutting off the water more change water to process element 91D. That is, when user is adjusted when flow-controlled device of the present invention is in the second working position or three working positions or during four working positions, Invention water treatment system is suitable to threeth opening 303D outflow of the regulation accessing pending water from the shell 3D of the flow-controlled device.Therefore, when When the water treatment system of flow-controlled device of the present invention is in the first working position, the water treatment system can be handled accessing pending water and is Water after user's offer processing, in the second working position or the 3rd working position, the water treatment system can be entered to the water process element While reverse or forward direction of going is rinsed, accessing pending water is provided for user, this continues water supply function and held suitable for meeting user Continuous water needs, especially the use needs in some occasions that can not cut off the water, and in four working positions, the water treatment system can Advantageously more change water to process element 91D is enabled a user to while persistently supplying accessing pending water, in addition, in flow control of the present invention In device, for discharge back flush or it is positive rinse after waste water fourth lane 104D flow path cross sectional product according to for waiting to locate The first passage 101D designs that water is flowed into are managed, it is this to design the use occasion for being particularly suitable for requiring high flux flushing.

It is worth noting that herein first, second, third, fourth, the five, the six, the seven, the eight, the nine, the tenth And the 11st when being only used for describing the present invention to producing area between the name of the present invention and the different parts and structure that make the present invention Point, unless otherwise indicated, otherwise itself does not have order or the how many implication of number.

It is understood that current herein are just for the sake of the illustration present invention and help those skilled in the art Understanding the present invention, it refers to the various fluids of including but not limited to current；Water herein is also used for the purpose of illustrating The bright present invention and the understanding present invention for helping those skilled in the art, it refers to the various liquids of including but not limited to water With various gaseous materials, therefore water mentioned herein and/or current be only used for illustrate the present invention, without constitute to this The limitation of invention.Meanwhile, flow-controlled device of the present invention is applied to the flowing control of the including but not limited to various fluids of current, and this hair Bright water treatment system can be used for the processing of various fluids, the including but not limited to various fluids of current.

So far, the object of the invention can be completed efficiently and effectively, and user can be by adjusting water treatment system of the present invention The flow-controlled device position of the second flow control element with respect to the first flow control element so that the flow-controlled device be respectively at it is different Working position, to adjust and control the working condition of the water treatment system, so that user can be by flow-controlled device of the present invention come real The flowing control for the waste water that water and backwash are produced after accessing pending water existing to water treatment system of the present invention, processing.

Those skilled in the art would appreciate that the embodiment of the present invention shown in accompanying drawing and described above is only to this hair Bright example rather than limitation.

It can thus be seen that the object of the invention can be efficiently accomplished fully.For explaining function and structure principle of the present invention The embodiment is absolutely proved and described, and the present invention is not limited by based on the change on these embodiment basis. Therefore, the present invention includes covering all modifications within appended claims claimed range and spirit.

Claims

1. a kind of flow-controlled device, it is characterised in that including：

One first flow control element；With

One second flow control element, wherein the second flow control element is rotatably arranged in the first flow control element, wherein described First flow control element includes a first flow control body, and the first flow control body includes a top ends, wherein the top Portion forms a first flow control face；The second flow control element includes a second flow control body, the second flow control body tool There are a bottom and a high end upwardly extended from the bottom, the bottom forms a second flow control face； First flow control face of wherein described first flow control element is suitable to be in contact with the second flow control face of the second flow control element, The top ends of wherein described first flow control element are extended in including first central part, a first edge portion and one The first pars intermedia between first central part and the first described edge part, the bottom of the second flow control element Including second central part, a second edge portion and one extend in second central part and the second edge portion it Between the second pars intermedia, wherein the flow-controlled device have first passage, second channel, third channel, one Fourth lane, the 7th passage and the 9th passage, wherein the first passage, the second channel, the threeway Road and the fourth lane are respectively arranged on the first flow control body of the first flow control element；7th passage and the described 9th Passage is respectively arranged on the second flow control body, wherein the first passage, the second channel, the third channel and described First flow control of the fourth lane respectively from the first flow control body of the first flow control element extends downwards；7th passage Extend upwardly from the second flow control of the bottom of the second flow control body and from the bottom of the second flow control body Second pars intermedia, which stretches out and forms first conducting being connected all the time with the upper outer space of the flow-controlled device, to be opened Mouthful；Second flow control of bottom of the 9th passage from the second flow control body extends to upwardly the second flow control member The high end of second flow control body of part, wherein the flow-controlled device have first working position, second working position, One the 3rd working position and the 4th working position, wherein when the flow-controlled device is in first working position, the described 7th Passage is connected with the first passage, and the 9th passage is connected with the second channel and the third channel respectively； When the flow-controlled device is in second working position, the 7th passage is connected with the second channel, and the described 9th leads to Road is connected with the first passage and the fourth lane respectively, the third channel and the flow-controlled device of the flow-controlled device The upper outer space of the first flow control body of the first flow control element be connected；Described in being in when the flow-controlled device During three working positions, the 7th passage is connected with the first passage, the 9th passage respectively with the second channel It is connected with the fourth lane, the third channel of the flow-controlled device and the first flow control element of the flow-controlled device The upper outer space of the first flow control body is connected；When the flow-controlled device is in four working position, described the Seven passages are connected with the third channel, and the 9th passage is connected with the fourth lane.

2. flow-controlled device according to claim 1, it is characterised in that when flow-controlled device is in the first working position, the flow-controlled device Fourth lane blocked by the second flow control body of the second flow control element, the second flow control body of the second flow control element difference By second channel and the upper outer spaced apart of the third channel and the flow-controlled device；When flow-controlled device is in the second work During position, the second flow control body of the second flow control element is respectively by the first passage and the fourth lane and the flow control The upper outer spaced apart of device；When flow-controlled device is in three working positions, the second flow control sheet of the second flow control element Body is respectively by the second channel and the fourth lane and the upper outer spaced apart of the flow-controlled device；At flow-controlled device When four working positions, the first passage and second channel of the flow-controlled device are respectively by the second flow control body of the second flow control element Obstruction, the second flow control body of the second flow control element is by the fourth lane and the upper outer space phase of the flow-controlled device Separate.

3. flow-controlled device according to claim 2, it is characterised in that the first passage, the second channel and the described 4th Passage extends inwardly to the top ends from first pars intermedia of the top ends of the first flow control body respectively First central part；The third channel is inside from first pars intermedia of the top ends of the first flow control body First side of first central part for extending to the top ends and the top ends for extending out to the first flow control body Edge, the 7th passage is from described the second of the bottom of the second flow control body of the second flow control element Between portion stretch out, institute of the 9th passage from the bottom of the second flow control body of the second flow control element State the second edge portion that the second pars intermedia extends out to the bottom.

4. flow-controlled device according to claim 3, it is characterised in that the top ends of the first flow control element of the flow-controlled device First central part has a first nodal point, and the second central part of the bottom of the second flow control element has one second Central point, wherein the second edge portion of the bottom of the second flow control body of the second flow control element has one Outward flange, the third channel has a third channel edge, wherein the first nodal point and the third channel edge In the first flow control face, second central point and the outward flange are in the second flow control face, wherein described first Maximizing Minimum Distance distance of the first nodal point of central part to the third channel edge of the third channel is L1, described second Second central point of central part to the second edge portion of the bottom of the second flow control element outer peripheral minimum range most Big distance is L2, wherein the L1 is more than the L2.

5. flow-controlled device according to claim 4, it is characterised in that the second flow control body of the second flow control element enters one Step includes an extension, and the 9th passage has the 9th channel edge, wherein the extension is controlled from described second The high end of stream body stretches out and extends downward into the 9th channel edge of the 9th passage, and to work as When the flow-controlled device is in first working position, the second flow control body of the second flow control element can be by the threeway The upper outer spaced apart in road and the flow-controlled device.

6. flow-controlled device according to claim 5, it is characterised in that the first passage, the second channel, the described 3rd Passage and the fourth lane are located at the first flow control body of the first flow control element with being spaced from each other respectively；Described 7th leads to Road and the 9th passage are located at the second flow control body of the second flow control element with being spaced from each other.

7. flow-controlled device according to claim 6, it is characterised in that the first flow control face of the first flow control element and The second flow control face of the second flow control element is circle, the first passage, the second channel, the threeway Road and the fourth lane radially be located at the first flow control element the first flow control face, and the 7th passage and 9th passage is radially located at the second flow control face of the second flow control element.

8. flow-controlled device according to claim 7, it is characterised in that the first passage, the fourth lane, described second Passage and the third channel are deasil arranged in the first flow control body of the first flow control element with this order；Institute State the 7th passage and the 9th passage of flow-controlled device and be deasil arranged in the second of the second flow control element with this order Flow control body.

9. flow-controlled device according to claim 2, it is characterised in that the first flow control face of the first flow control element has one Individual core, wherein the top ends of the core located at the first flow control body of the first flow control element First central part；There is a central area with the second flow control face of the second flow control element, wherein the center Region is located at second central part of the top ends of the second flow control body of the second flow control element, wherein institute The part outside the core in the first flow control face is stated by six the first bluelines Jing Guo the first nodal point clockwise to be divided For a Part I, a Part II, a Part III, a Part IV, a Part V and one the 6th Part；Passed through second central point with the part outside the central area in the second flow control face six second point Area's line is divided into a first area, second area, the 3rd region, the 4th region, the 5th area clockwise Domain and the 6th region, wherein every adjacent two the first bluelines formation in the first flow control face of the first flow control element Central angle alpha 1 is equal in magnitude；The center of every adjacent two the second bluelines formation in the second flow control face of the second flow control element Angle α 2 is equal in magnitude, wherein the Part I and the Part II of the first passage from the first flow control face are downward Extension；The second channel is extended downwardly from the Part V in the first flow control face of the first flow control element；Institute Third channel is stated to extend downwardly from the Part VI in the first flow control face；The fourth lane from the Part III in the first flow control face and Part IV is extended downwardly；7th passage is upwardly extended from the first area in the second flow control face；Described 9th Passage is upwardly extended from the 4th region in the second flow control face and the 5th region.

10. flow-controlled device according to claim 8, it is characterised in that the first flow control face of the first flow control element has one Individual core, wherein the top ends of the core located at the first flow control body of the first flow control element First central part；There is a central area with the second flow control face of the second flow control element, wherein the center Region is located at second central part of the top ends of the second flow control body of the second flow control element, wherein institute The part outside the core in the first flow control face is stated by six the first bluelines Jing Guo the first nodal point clockwise to be divided For a Part I, a Part II, a Part III, a Part IV, a Part V and one the 6th Part；Passed through second central point with the part outside the central area in the second flow control face six second point Area's line is divided into a first area, second area, the 3rd region, the 4th region, the 5th area clockwise Domain and the 6th region, wherein every adjacent two the first bluelines formation in the first flow control face of the first flow control element Central angle alpha 1 is equal in magnitude；The center of every adjacent two the second bluelines formation in the second flow control face of the second flow control element Angle α 2 is equal in magnitude, wherein the Part I and the Part II of the first passage from the first flow control face are downward Extension；The second channel is extended downwardly from the Part V in the first flow control face of the first flow control element；Institute Third channel is stated to extend downwardly from the Part VI in the first flow control face；The fourth lane from the Part III in the first flow control face and Part IV is extended downwardly；7th passage is upwardly extended from the first area in the second flow control face；Described 9th Passage is upwardly extended from the 4th region in the second flow control face and the 5th region.

11. flow-controlled device according to claim 2, it is characterised in that the flow-controlled device further comprises a shell, and institute The the first flow control body for stating the first flow control element further comprises the top ends from the first flow control body The end portion extended downwardly, wherein the shell includes outer cover body, wherein the outer cover body is from first flow control The end portion of the first flow control body of element, which outwardly and upwardly extends and enclosed, is set as first accommodating chamber, wherein institute First lead-through opening that the first accommodating chamber is stated with the 7th passage is connected, wherein the second flow control element is suitable to the Two flow controls are contained in first accommodating chamber face-down, and are located at the first flow control face of the first flow control element, its Described in shell there is one the 3rd opening, one the 4th opening and one the 7th opening, wherein the 3rd opening, described the Four openings and the described 7th opening are respectively arranged on the outer cover body of the shell, wherein the 3rd opening be suitable to it is described Third channel is connected, and the 4th opening is suitable to be connected with the fourth lane, and the 7th opening is suitable to and described the One accommodating chamber is connected.

12. flow-controlled device according to claim 9, it is characterised in that the flow-controlled device further comprises a shell, and institute The the first flow control body for stating the first flow control element further comprises the top ends from the first flow control body The end portion extended downwardly, wherein the shell includes outer cover body, wherein the outer cover body is from first flow control The end portion of the first flow control body of element, which outwardly and upwardly extends and enclosed, is set as first accommodating chamber, wherein institute First lead-through opening that the first accommodating chamber is stated with the 7th passage is connected, wherein the second flow control element is suitable to the Two flow controls are contained in first accommodating chamber face-down, and are located at the first flow control face of the first flow control element, its Described in shell there is one the 3rd opening, one the 4th opening and one the 7th opening, wherein the 3rd opening, described the Four openings and the described 7th opening are respectively arranged on the outer cover body of the shell, wherein the 3rd opening be suitable to it is described Third channel is connected, and the 4th opening is suitable to be connected with the fourth lane, and the 7th opening is suitable to and described the One accommodating chamber is connected.

13. flow-controlled device according to claim 10, it is characterised in that the flow-controlled device further comprises a shell, and institute The the first flow control body for stating the first flow control element further comprises the top ends from the first flow control body The end portion extended downwardly, wherein the shell includes outer cover body, wherein the outer cover body is from first flow control The end portion of the first flow control body of element, which outwardly and upwardly extends and enclosed, is set as first accommodating chamber, wherein institute First lead-through opening that the first accommodating chamber is stated with the 7th passage is connected, wherein the second flow control element is suitable to the Two flow controls are contained in first accommodating chamber face-down, and are located at the first flow control face of the first flow control element, its Described in shell there is one the 3rd opening, one the 4th opening and one the 7th opening, wherein the 3rd opening, described the Four openings and the described 7th opening are respectively arranged on the outer cover body of the shell, wherein the 3rd opening be suitable to it is described Third channel is connected, and the 4th opening is suitable to be connected with the fourth lane, and the 7th opening is suitable to and described the One accommodating chamber is connected.

14. flow-controlled device according to claim 11, it is characterised in that when the flow-controlled device is in first working position, Second flow control body of the second flow control element of the flow-controlled device is by the shell of the third channel and the flow-controlled device First accommodating chamber is spaced；With when the flow-controlled device is in second working position or three working position, the flow control The third channel of device is connected with the first accommodating chamber of the shell.

15. flow-controlled device according to claim 13, it is characterised in that when the flow-controlled device is in first working position, Second flow control body of the second flow control element is respectively by the second channel and the third channel and the flow-controlled device First accommodating chamber of the shell is spaced；When the flow-controlled device is in second working position, the flow-controlled device Third channel is connected with the first accommodating chamber of the shell, and the second flow control body of the second flow control element respectively will be described First passage and the fourth lane and first accommodating chamber of the shell of the flow-controlled device are spaced；When the flow control When device is in three working position, the third channel of the flow-controlled device is connected with the first accommodating chamber of the shell, described Second flow control body of the second flow control element is respectively by described in the second channel and the fourth lane and the flow-controlled device First accommodating chamber of shell is spaced；When the flow-controlled device is in four working position, the second flow control element The second flow control body the fourth lane and first accommodating chamber of the shell of the flow-controlled device are spaced.

16. flow-controlled device according to claim 15, it is characterised in that the outer cover body of the shell is from described first The end portion of first flow control body of flow control element, which is extended downwardly and enclosed, is set as second accommodating chamber, wherein described second accommodates Room is located at the lower section of the end portion of the first flow control body, wherein the flow-controlled device further comprises that one is located at described second The flow blocking element of accommodating chamber, wherein the flow blocking element is extended downwardly from the first flow control body, wherein the flow blocking element Outer cover body formation one with the shell is led positioned at first between the flow blocking element and the outer cover body of the shell Flow chamber, the flow blocking element, which encloses, is set as second diversion chamber.

17. flow-controlled device according to claim 16, it is characterised in that the first passage of the flow-controlled device is from described First flow control of one flow control element extends and is connected with first diversion chamber downwards；The second channel is from described first First flow control of flow control element extends and is connected with second diversion chamber downwards.

18. flow-controlled device according to claim 17, it is characterised in that the flow-controlled device further comprises one removably Anti-wear component between the first flow control element and the second flow control element, wherein the anti-wear component has one Wear-resisting body, wherein there is the wear-resisting body one to be suitable to be in contact with the second flow control face of the second flow control body Wearing face, wherein described the of the first flow control element of the size and shape of the anti-wear component and the flow-controlled device One flow control face is corresponding, and the anti-wear component the wear-resisting body be formed with being spaced from each other a first interface, one Second interface, the 3rd interface and the 4th interface, wherein the first interface, the second interface, the described 3rd connecing Mouthful and the 4th interface respectively above and below run through the wear-resisting body of the anti-wear component and the institute with the flow-controlled device respectively First passage, the second channel, the third channel is stated with the fourth lane to be connected.

19. flow-controlled device according to claim 18, it is characterised in that the flow-controlled device further comprises a driving element, Wherein described driving element is upwardly extended from the second flow control body of the second flow control element and the driving element is suitable to drive Move the first flow control body hair of the relatively described first flow control element of the second flow control body of the second flow control element of the flow-controlled device It is raw to rotate.

20. flow-controlled device according to claim 19, it is characterised in that the flow-controlled device further comprises that one is driven from described The potted component that dynamic element is upwardly extended, first accommodating chamber has a upper end open, wherein the potted component is suitable to Located at the outer cover body of the shell to seal first accommodating chamber, thus prevent water in first accommodating chamber from The upper end open outflow of first accommodating chamber.

21. flow-controlled device according to claim 13, it is characterised in that the shell further have one first opening and One second opening, wherein first opening and the described second opening are respectively arranged on the outer cover body of the shell, its Described in the first flow control of the first passage from the first flow control element of flow-controlled device extend downwards and from described first The end portion of first flow control body of flow control element stretch out with first opening in communication；The second channel is from institute State the first flow control element the first flow control extend downwards and the first flow control body from the first flow control element end portion Stretch out with second opening in communication.

22. flow-controlled device according to claim 21, it is characterised in that when the flow-controlled device is in first working position, Second flow control body of the second flow control element of the flow-controlled device is by the shell of the third channel and the flow-controlled device First accommodating chamber is spaced；With when the flow-controlled device is in second working position or three working position, the flow control The third channel of device is connected with the first accommodating chamber of the shell.

23. flow-controlled device according to claim 22, it is characterised in that the flow-controlled device further comprises one removably Anti-wear component between the first flow control element and the second flow control element, wherein the anti-wear component has one Wear-resisting body, wherein there is the wear-resisting body one to be suitable to be in contact with the second flow control face of the second flow control body Wearing face, wherein described the of the first flow control element of the size and shape of the anti-wear component and the flow-controlled device One flow control face is corresponding, and the anti-wear component the wear-resisting body be formed with being spaced from each other a first interface, one Second interface, the 3rd interface and the 4th interface, wherein the first interface, the second interface, the described 3rd connecing Mouthful and the 4th interface respectively above and below run through the wear-resisting body of the anti-wear component and the institute with the flow-controlled device respectively First passage, the second channel, the third channel is stated with the fourth lane to be connected.

24. flow-controlled device according to claim 23, it is characterised in that the flow-controlled device further comprises a driving element, Wherein described driving element is upwardly extended from the second flow control body of the second flow control element and the driving element is suitable to drive Move the first flow control body hair of the relatively described first flow control element of the second flow control body of the second flow control element of the flow-controlled device It is raw to rotate.

25. flow-controlled device according to claim 24, it is characterised in that the flow-controlled device further comprises that one is driven from described The potted component that dynamic element is upwardly extended, first accommodating chamber has a upper end open, wherein the potted component is suitable to Located at the outer cover body of the shell to seal first accommodating chamber, thus prevent water in first accommodating chamber from The upper end open outflow of first accommodating chamber.

26. a kind of water treatment system, it is characterised in that including：

One flow-controlled device, wherein the flow-controlled device is applied to the flowing of control current；With

One unit for treating water, wherein the flow-controlled device is connected with the unit for treating water, wherein the flow-controlled device includes one First flow control element, one second flow control element and a shell, wherein the second flow control element is rotatably arranged in described One flow control element, wherein the first flow control element includes a first flow control body, the first flow control body includes one Top ends and an end portion, wherein one the first flow control face of top ends formation；The second flow control element includes one Second flow control body, the second flow control body have a bottom and one from the bottom upwardly extend it is high-end Portion, the bottom forms a second flow control face；First flow control face of wherein described first flow control element is suitable to and described the The second flow control face of two flow control elements is in contact, wherein the top ends of the first flow control element include one first Central part, a first edge portion and one are extended in first between first central part and the first described edge part Between portion, the bottom of the second flow control element includes second central part, a second edge portion and an extension The second pars intermedia between second central part and the second edge portion, wherein there is the flow-controlled device one first to lead to Road, a second channel, a third channel, a fourth lane, the 7th passage and the 9th passage, wherein described First passage, the second channel, the third channel and the fourth lane are respectively arranged on the of the first flow control element One flow control body；7th passage and the 9th passage are respectively arranged on the second flow control body, wherein described first is logical Road, the second channel, the third channel and the fourth lane are respectively from the first flow control sheet of the first flow control element First flow control of body extends downwards；Second flow control face of wherein described 7th passage from the bottom of the second flow control body Upwardly extend and the second pars intermedia from the bottom of the second flow control body stretch out and formed one all the time with it is described The first lead-through opening that first accommodating chamber of the shell of flow-controlled device is connected；9th passage is controlled from described second Second flow control of the bottom of stream body extends to upwardly the described high-end of the second flow control body of the second flow control element Portion, wherein the shell includes outer cover body, wherein the outer cover body is from described the first of the first flow control element The end portion of flow control body, which outwardly and upwardly extends and enclosed, is set as first accommodating chamber, wherein first accommodating chamber with First lead-through opening of 7th passage is connected, wherein the second flow control element is suitable to the second flow control face-down First accommodating chamber is contained in, and located at the first flow control face of the first flow control element, wherein the shell has One the 3rd opening, one the 4th opening and one the 7th opening, wherein the 3rd opening, the 4th opening and described the Seven openings are respectively arranged on the outer cover body of the shell, wherein the 3rd opening is suitable to be connected with the third channel Logical, the 4th opening is suitable to be connected with the fourth lane, and the 7th opening is suitable to be connected with first accommodating chamber It is logical, wherein the unit for treating water includes a water process element, wherein there is the water process element one first connection to open Mouth and second open communication, wherein the accessing pending water from flow-controlled device is suitable to the water process element from the unit for treating water The first open communication flow into the water process element and handled after being handled through the water process element after water, wherein described Water is suitable to flow out from the second open communication of the water process element after processing, wherein the flow-controlled device has one first work Position, second working position, the 3rd working position and the 4th working position, wherein when the flow-controlled device is in described first During working position, the 7th passage is connected with the first passage, the 9th passage respectively with the second channel and institute Third channel is stated to be connected；When the flow-controlled device is in second working position, the 7th passage and the second channel It is connected, the 9th passage is connected with the first passage and the fourth lane respectively, described the of the flow-controlled device Triple channel is connected with first accommodating chamber of the shell of the flow-controlled device；When the flow-controlled device is in the 3rd work When making position, the 7th passage is connected with the first passage, the 9th passage respectively with the second channel and described Fourth lane is connected, first accommodating chamber of the third channel of the flow-controlled device and the shell of the flow-controlled device It is connected；When the flow-controlled device is in four working position, the 7th passage is connected with the third channel, described 9th passage is connected with the fourth lane.

27. water treatment system according to claim 26, when the flow-controlled device is in first working position, described Four-way is blocked by the second flow control body of the second flow control element, the second flow control body of the second flow control element First accommodating chamber of the second channel and the third channel and the shell of the flow-controlled device is spaced respectively； When the flow-controlled device is in second working position, the first accommodating chamber phase of the third channel of the flow-controlled device and the shell Connection, the second flow control body of the second flow control element is respectively by the first passage and the fourth lane and the flow control First accommodating chamber of the shell of device is spaced；When the flow-controlled device is in three working position, the flow control The third channel of device is connected with the first accommodating chamber of the shell, and the second flow control body of the second flow control element respectively will The second channel and the fourth lane and first accommodating chamber of the shell of the flow-controlled device are spaced；When described When flow-controlled device is in four working position, the first passage and the second channel are described in the second flow control element Second flow control body blocks, and the second flow control body of the second flow control element is by the fourth lane and the institute of the flow-controlled device First accommodating chamber for stating shell is spaced.