CN104508339B - Flow controller and water processing system - Google Patents
Flow controller and water processing system Download PDFInfo
- Publication number
- CN104508339B CN104508339B CN201380025084.8A CN201380025084A CN104508339B CN 104508339 B CN104508339 B CN 104508339B CN 201380025084 A CN201380025084 A CN 201380025084A CN 104508339 B CN104508339 B CN 104508339B
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- Prior art keywords
- flow control
- flow
- controlled device
- passage
- control element
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16K—VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
- F16K11/00—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves
- F16K11/02—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves with all movable sealing faces moving as one unit
- F16K11/06—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves with all movable sealing faces moving as one unit comprising only sliding valves, i.e. sliding closure elements
- F16K11/072—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves with all movable sealing faces moving as one unit comprising only sliding valves, i.e. sliding closure elements with pivoted closure members
- F16K11/074—Multiple-way valves, e.g. mixing valves; Pipe fittings incorporating such valves with all movable sealing faces moving as one unit comprising only sliding valves, i.e. sliding closure elements with pivoted closure members with flat sealing faces
Abstract
A flow controller applicable for controlling multi-directional flow of a fluid, comprising a first flow control component (10 and 10A-H) a second flow control component (20 and 20A-H), and a housing (30 and 30A-H). The second flow control component (20 and 20A-H) is suitable to be arranged at the first flow control component (10 and 10A-H) and be accommodated within a first accommodation chamber (310 and 310A-H) formed by the housing (30 and 30A-H). A user can rotate the second flow control component (20 and 20A-H) to allow channels arranged at the first flow control component (10 and 10A-H) to connect selectively to channels of the second flow control component (20 and 20A-H), thus controlling the flow of different water flows. The flow controller has the advantages of a simple structure, reduced manufacturing costs, convenient use, and reliable performance.
Description
Technical field
The present invention relates to a kind of fluid handling system, more particularly to a kind of flow-controlled device, wherein the flow-controlled device is suitable for control
The flowing of multiple fluid, to realize the fluid processing function of fluid system, user can pass through the second control for adjusting the flow-controlled device
Fluid element adjusts and controls 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, such as water treatment system, more normal in commercial 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
To the flowing of processing unit, processing unit is processed body suitable for treating treatment fluid, with fluid after being processed.In fluid
When processing system is treated treatment fluid and processed, when such as water treatment system is processed accessing pending water, for controlling fluid
One or more single function valves and/or multi-functional valve fluid are generally comprised to the flow-controlled device for realizing fluid processing intent,
Processed for convection cell with the processing unit of fluid after being processed it is relatively conventional have defecator, 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
The filter membrane of reason system, activated carbon, ion exchange resin generally require Jing and often change or Regeneration Treatment, allow it to play good
Filter or remove the effect of fluid intermediate ion.Filter membrane, activated carbon, ion in the processing unit of user convection cell processing system is handed over
Change resin etc. to be changed or during Regeneration Treatment, the fluid for generally requiring to interrupt fluid handling system is processed, and is brought to user
Substantial amounts of time cost.
Much using the water treatment system of existing flow-controlled device, it is impossible to by the single flow-controlled device, such as monomer valve, while carrying out
The control of various 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, increasing carries out the difficulty of Automated condtrol to it.In addition, being processed using the domestic water of existing flow-controlled device
System, because the function restriction of flow-controlled device used, the water treatment system cannot be provided and treat during cleaning blowdown for user
Process water, such as tap water, or water after 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 domestic water processing system can not be provided after process for user again
When water and tap water, just inconvenience is brought to user.
The Chinese patent of Application No. CN200610024561.0 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 being arranged in parallel, and water-purifying tank has the upper end open and a central canal of an opening upwards,
Wherein when water inlet pipe is connected respectively with the upper end open of water-purifying tank;Should when outlet pipe is connected respectively with the central canal of water-purifying tank
Two water-purifying tanks of water treatment system carry out purified treatment to accessing pending water;When a water inlet pipe and the upper end of corresponding water-purifying tank
Opening in communication, and corresponding three-way 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 processed when wherein water-purifying tank is in Regeneration Treatment and to user not
Water after interruption offer process.But the shortcoming of the water treatment system is also apparent from.First, the water treatment system must use two
Above valve and the multiple water pipes of arrangement, to realize the control of different current and realize processing accessing pending water and being cleaned
The function of the water treatment system.
In addition, in existing industry or domestic water technology, commonly used multifunctional control valve is realizing the mistake of filter element
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 restriction 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
The raw water of Jing process, existing plane multifunctional control valve has been difficult to meet this demand.
Further, in existing industry or domestic water technology, commonly used multifunctional control valve is realizing the mistake of filter element
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 restriction 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
The raw water of Jing process, 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 little or can not persistently supply the defect of raw water 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
Fixed valve plate and moving valve plate that internal employing end face rotary seal coordinates, moving valve plate and valve rod connect, and on control valve original is provided with
Water inlet, pure water inlet, blowdown interface, filter element first interface and filter element second interface, are provided with fixed valve plate:Filter element first connects
Mouthful passage, filter element second interface passage, fifth hole and clematis stem hole, in control valve, filter element first interface passage and filter element
First interface is connected, and filter element second interface passage is connected with filter element second interface, and fifth hole is connected with pure water inlet,
Clematis stem hole is connected with blowdown interface;The intake tunnel being connected with original water inlet is provided with moving valve plate, on moving valve plate also
It is provided with conducting blind hole.
Further, filter element 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 element first interface;Filter element second interface passage includes third through-hole and fourth hole, third through-hole
It is interconnected with fourth hole and is connected with filter element second interface;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 respectively with original water inlet.
Further, filter element first interface passage, filter element second interface passage and clematis stem hole are arranged on the internal ring of fixed valve plate
On, fifth hole is arranged on the outer shroud of fixed valve plate.
Further, filter element first interface passage, filter element second interface passage and clematis stem hole are arranged on the internal 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 element 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 in clematis stem hole is covered;Or filter element second connects
Mouth passage and fifth hole are connected with intake tunnel, and filter element first interface passage and clematis stem hole connect with conducting blind hole;Or filter
Core first interface passage and fifth hole are connected with intake tunnel, and filter element second interface passage and clematis stem hole connect with conducting blind hole
It is logical.
Further, the matching relationship of fixed valve plate and moving valve plate includes:Filter element 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 in clematis stem hole is covered;Or filter element second connects
Mouth passage is connected with intake tunnel, and filter element first interface passage and clematis stem hole connect with conducting blind hole, fifth hole passive valve
Piece closing is covered;Or filter element first interface passage is connected with intake tunnel, filter element second interface passage and clematis stem 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 connects with the second intake tunnel, and third through-hole and fifth hole are connected with conducting blind hole, and fourth hole and clematis stem 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
Connect with clematis stem 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 clematis stem hole connect 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 element 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 in clematis stem hole is covered;Or filter element second connects
Mouthful passage connect with intake tunnel, and fifth hole is connected with original water inlet, filter element first interface passage and clematis stem hole and is turned on
Blind hole is connected;Or filter element first interface passage is connected with intake tunnel, fifth hole is connected with original water inlet, filter element second interface
Passage and clematis stem hole connect 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, the area for making limited plane valve block has obtained effective application so that the flow into fixed valve plate becomes big, whole valve body
Water flowing quantitative change it is big;Undressed raw water can be supplied while washing in backwash and just 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
Unite, and can respectively control various current at different operating position and flow in different directions.
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, can as far as possible reduce the flow-controlled device 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 it provides a kind of flow-controlled device, wherein the flow-controlled device be applied to adjust control include but
The flowing that current are not limited in interior various fluids is controlled.
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 can as far as possible improve the water process speed of the water treatment system for using the flow-controlled device
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 sets 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 capable of achieving
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 capable of achieving to adjust at water
The purpose of the treatment function, back flush function and positive pre-washing function of reason system, 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
Process 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
Selecting property water after process (or raw water, the tap water for such as directly flowing out from running water pipe) is provided for user, with to the greatest extent
Possible energy saving, beneficial environmental protection.
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 to accessing pending water and reverse flow treatment function are realized to selecting property, is somebody's turn to do so as to contribute to extending
The service life of the unit for treating water of water treatment system, so as to reducing the use cost of user, energy saving and having as far as possible
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 be equipped with multiple fluid passages and when should
When second control element rotates with respect to the first flow control element, located at the fluid passage of the first flow control element and the second control
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 it 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 such as flowing of current, the processing unit is suitable to
Treatment fluid is treated, especially accessing pending water is processed.
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 processed the accessing pending water from the flow-controlled device.
Other advantages and feature of the present invention are able to fully demonstrate and can be by appended rights by following detailed descriptions
The combination of the means and device specially pointed out in requirement is achieved.
According to the present invention, can realize that object defined above and other purposes and the flow-controlled device of the present invention of advantage include:
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
, from the upwardly extending high end in the bottom, the bottom forms a second flow control face for portion and one;Wherein first flow control
First flow control face of element is suitable to be contacted 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 the 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 faces down extension;Second flow control of wherein the 7th passage from the bottom of the second flow control body
Face upwards 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 space outerpace of stream device is connected;9th passage is controlled from the second of 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
Individual end portion, the wherein top ends form a first flow control face;The second flow control element includes a second flow control body, should
Second flow control body has a bottom and one from the upwardly extending high end in the bottom, and the bottom forms one the
Two flow control faces;First flow control face of wherein 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
In the middle of second central part, a second edge portion and second extended 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 faces down extension;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 face upwards the high end of the second flow control body for extending to the second flow control element, the wherein shell includes 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 suitable to the second flow control and is contained in first accommodating chamber face-down, 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
In being connected with the third channel, the 4th opening is 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 from the accessing pending water water process that is suitable to from the unit for treating water of flow-controlled device
First open communication of element flows into the water process element and water after being processed Jing after the water process element is processed, wherein at this
Water is suitable to from the second open communication of the water process element flow out after reason.
By the understanding to subsequent description and accompanying drawing, further aim of the present invention and advantage will be fully demonstrated.
The these and other objects of the present invention, feature and advantage, by following detailed descriptions, drawings and claims are obtained
To fully demonstrate.
Description of the drawings
Fig. 1 is the valve body schematic diagram of 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 that embodiment one, four, five supplies raw water state in backwash simultaneously;
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 simultaneously 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 the relative position schematic diagram that moving valve plate is determined 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 the relative position schematic diagram that moving valve plate is determined 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 is the valve body schematic diagram of presently preferred embodiments of the present invention six to embodiment ten;
Figure 33 is the planar structure schematic diagram of the fixed valve plate of embodiment six;
Figure 34 is the schematic top plan view of the moving valve plate of embodiment six;
Figure 35 is structural representation of the embodiment six in filtration condition;
Figure 36 is the relative position schematic diagram that embodiment six determines moving valve plate under filtration condition;
Figure 37 is the structural representation that embodiment six supplies raw water state in backwash simultaneously;
Figure 38 is the relative position schematic diagram that embodiment six determines moving valve plate in the case where backwash supplies raw water state simultaneously;
Figure 39 is that embodiment six is just being washed simultaneously for the structural representation of raw water state;
Figure 40 is that embodiment six is just being washed while determining the relative position schematic diagram of moving valve plate under for raw water state;
Figure 41 is the planar structure schematic diagram of the fixed valve plate of embodiment seven;
Figure 42 is the schematic top plan view of the moving valve plate of embodiment seven;
Figure 43 is structural representation of the embodiment seven in filtration condition;
Figure 44 is the relative position schematic diagram that embodiment seven determines moving valve plate under filtration condition;
Figure 45 is the structural representation that embodiment seven supplies raw water state in backwash simultaneously;
Figure 46 is the relative position schematic diagram that embodiment seven determines moving valve plate in the case where backwash supplies raw water state simultaneously;
Figure 47 is that embodiment seven is just being washed simultaneously for the structural representation of raw water state;
Figure 48 is that embodiment seven is just being washed while determining the relative position schematic diagram of moving valve plate under for raw water state;
Figure 49 is the planar structure schematic diagram of the fixed valve plate of embodiment eight;
Figure 50 is the schematic top plan view of the moving valve plate of embodiment eight;
Figure 51 is structural representation of the embodiment eight in filtration condition;
Figure 52 is the relative position schematic diagram that embodiment eight determines moving valve plate under filtration condition;
Figure 53 be embodiment eight in backwash while not supplying the structural representation of raw water state;
Figure 54 be embodiment eight in backwash while not supplying the relative position schematic diagram that moving valve plate is determined under raw water state;
Figure 55 is that embodiment eight is just being washed while not supplying the structural representation of raw water state;
Figure 56 is the relative position schematic diagram that embodiment eight determines moving valve plate in the case where just washing while not supplying raw water state;
Figure 57 is the planar structure schematic diagram of the fixed valve plate of embodiment nine;
Figure 58 is the schematic top plan view of the moving valve plate of embodiment nine;
Figure 59 is structural representation of the embodiment nine in filtration condition;
Figure 60 is the relative position schematic diagram that embodiment nine determines moving valve plate under filtration condition;
Figure 61 be embodiment nine in backwash while not supplying the structural representation of raw water state;
Figure 62 be embodiment nine in backwash while not supplying the relative position schematic diagram that moving valve plate is determined under raw water state;
Figure 63 is that embodiment nine is just being washed while not supplying the structural representation of raw water state;
Figure 64 is the relative position schematic diagram that embodiment nine determines moving valve plate in the case where just washing while not supplying raw water state;
Figure 65 be embodiment ten by lid again to the schematic diagram of the blowdown interface draining on valve body.
Figure 66 A are the axonometric chart of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 B are the installation diagram of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 C are the top view of the second flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 D are the upward view of the second flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 E are the top view of the first flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 F are the upward view of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 66 G are the installation diagram of the flow-controlled device according to the 11st preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 67 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 67 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention.
Figure 67 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 67 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 11st preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 68 A are the schematic top plan view of the flow-controlled device according to the 11st preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 68 B are the schematic top plan view of the flow-controlled device according to the 11st preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 68 C are the schematic top plan view of the flow-controlled device according to the 11st preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 69 is the generalized section of the water treatment system according to the 11st preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 70 A are the axonometric chart of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 B are the installation diagram of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 C are the top view of the second flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 D are the upward view of the second flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 E are the top view of the first flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 F are the upward view of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 70 G are the installation diagram of the flow-controlled device according to the 12nd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 70 H are the sectional view of the first flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 70 I are the installation diagram of the flow-controlled device according to the 12nd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 70 J are the upward view of the flow-controlled device according to the 12nd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 70 K are the sectional view of the first flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 70 L are the installation diagram of the flow-controlled device according to the 12nd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 70 M are the flow-controlled device axonometric chart according to the 12nd preferred embodiment of the invention, and wherein illustrated by the figure is the control
A kind of optional enforcement of stream device, the flow-controlled device also has the 3rd opening, the 4th opening, the 5th opening and the 6th opening.
Figure 71 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 71 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention.
Figure 71 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 71 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 12nd preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 72 A are the schematic top plan view of the flow-controlled device according to the 12nd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 72 B are the schematic top plan view of the flow-controlled device according to the 12nd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 72 C are the schematic top plan view of the flow-controlled device according to the 12nd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 72 D are the schematic top plan view of the flow-controlled device according to the 12nd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 73 is the generalized section of the water treatment system according to the 12nd preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 74 A are the axonometric chart of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 B are the installation diagram of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 C are the top view of the second flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 D are the upward view of the second flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 E are the top view of the first flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 F are the upward view of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 74 G are the installation diagram of the flow-controlled device according to the 13rd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 74 H are the sectional view of the first flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 74 I are the installation diagram of the flow-controlled device according to the 13rd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 74 J are the upward view of the flow-controlled device according to the 13rd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 74 K are the sectional view of the first flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 74 L are the installation diagram of the flow-controlled device according to the 13rd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 74 M are the axonometric chart of the flow-controlled device according to the 13rd preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device, the flow-controlled device also has the 3rd opening, the 4th opening, the 5th opening and the 6th opening.
Figure 75 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 75 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention.
Figure 75 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 75 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 13rd preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 76 A are the schematic top plan view of the flow-controlled device according to the 13rd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 76 B are the schematic top plan view of the flow-controlled device according to the 13rd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 76 C are the schematic top plan view of the flow-controlled device according to the 13rd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 76 D are the schematic top plan view of the flow-controlled device according to the 13rd preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 77 is the generalized section of the water treatment system according to the 13rd preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 78 A are the axonometric chart of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 B are the installation diagram of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 C are the top view of the second flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 D are the upward view of the second flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 E are the top view of the first flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 F are the upward view of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 78 G are the installation diagram of the flow-controlled device according to the 14th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 79 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 79 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention.
Figure 79 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 79 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 14th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 80 A are the schematic top plan view of the flow-controlled device according to the 14th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 80 B are the schematic top plan view of the flow-controlled device according to the 14th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 80 C are the schematic top plan view of the flow-controlled device according to the 14th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 80 D are the schematic top plan view of the flow-controlled device according to the 14th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 81 is the generalized section of the water treatment system according to the 14th preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 82 A are the axonometric chart of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 B are the installation diagram of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 C are the top view of the second flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 D are the upward view of the second flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 E are the top view of the first flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 F are the upward view of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 82 G are the installation diagram of the flow-controlled device according to the 15th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 83 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 83 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention.
Figure 83 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 83 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 15th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 84 A are the schematic top plan view of the flow-controlled device according to the 15th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 84 B are the schematic top plan view of the flow-controlled device according to the 15th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 84 C are the schematic top plan view of the flow-controlled device according to the 15th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 84 D are the schematic top plan view of the flow-controlled device according to the 15th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 85 is the generalized section of the water treatment system according to the 15th preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 86 A are the axonometric chart of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 B are the installation diagram of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 C are the top view of the second flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 D are the upward view of the second flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 E are the top view of the first flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 F are the upward view of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 86 G are the installation diagram of the flow-controlled device according to the 16th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 87 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 87 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention.
Figure 87 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 87 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 16th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 88 A are the schematic top plan view of the flow-controlled device according to the 16th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 88 B are the schematic top plan view of the flow-controlled device according to the 16th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 88 C are the schematic top plan view of the flow-controlled device according to the 16th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 89 is the generalized section of the water treatment system according to the 16th preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 90 A are the axonometric chart of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 B are the installation diagram of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 C are the top view of the second flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 D are the upward view of the second flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 E are the top view of the first flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 F are the upward view of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 90 G are the installation diagram of the flow-controlled device according to the 17th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 90 H are the sectional view of the first flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 90 I are the installation diagram of the flow-controlled device according to the 17th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 90 J are the upward view of the flow-controlled device according to the 17th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 90 K are the sectional view of the first flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the first flow control element of the flow-controlled device.
Figure 90 L are the installation diagram of the flow-controlled device according to the 17th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 90 M are the axonometric chart of the flow-controlled device according to the 17th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device, the flow-controlled device also has the first opening, the 4th opening and the 6th opening.
Figure 91 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 91 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention.
Figure 91 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 91 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 17th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 92 A are the schematic top plan view of the flow-controlled device according to the 17th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 92 B are the schematic top plan view of the flow-controlled device according to the 17th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 92 C are the schematic top plan view of the flow-controlled device according to the 17th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 92 D are the schematic top plan view of the flow-controlled device according to the 17th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 93 is the generalized section of the water treatment system according to the 17th preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 94 A are the axonometric chart of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 B are the installation diagram of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 C are the top view of the second flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 D are the upward view of the second flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 E are the top view of the first flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 F are the upward view of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 94 G are the installation diagram of the flow-controlled device according to the 18th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 95 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 95 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention.
Figure 95 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 95 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 95 E are the schematic top plan view of the first flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention, its
In illustrated by the figure be the flow-controlled device the first flow control element a kind of optional enforcement.
Figure 95 F are the schematic top plan view of the second flow control element of the flow-controlled device according to the 18th preferred embodiment of the invention, its
In illustrated by the figure be the flow-controlled device the second flow control element a kind of optional enforcement.
Figure 95 G are the schematic top plan view of the anti-wear component of the flow-controlled device according to the 18th preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the anti-wear component of the flow-controlled device.
Figure 96 A are the schematic top plan view of the flow-controlled device according to the 18th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 96 B are the schematic top plan view of the flow-controlled device according to the 18th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 96 C are the schematic top plan view of the flow-controlled device according to the 18th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 97 is the generalized section of the water treatment system according to the 18th preferred embodiment of the invention, wherein the water process system
The flow-controlled device of system is in above-mentioned first working position.
Figure 98 A are the axonometric chart of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 B are the installation diagram of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 C are the top view of the second flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 D are the upward view of the second flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 E are the top view of the first flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 F are the upward view of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 98 G are the installation diagram of the flow-controlled device according to the 19th preferred embodiment of the invention, and wherein illustrated by the figure is this
A kind of optional enforcement of flow-controlled device.
Figure 99 A are the schematic top plan view of the first flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 99 B are the schematic top plan view of the second flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention.
Figure 99 C are bowing for the first flow control face of the first flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the different aliquots in the first flow control face.
Figure 99 D are bowing for the second flow control face of the second flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention
Depending on schematic diagram, the wherein chain-dotted line in the figure show the subregions such as the difference in the second flow control face.
Figure 99 E are the schematic top plan view of the first flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention, its
In illustrated by the figure be the flow-controlled device the first flow control element a kind of optional enforcement.
Figure 99 F are the schematic top plan view of the second flow control element of the flow-controlled device according to the 19th preferred embodiment of the invention, its
In illustrated by the figure be the flow-controlled device the second flow control element a kind of optional enforcement.
Figure 99 G are the schematic top plan view of the anti-wear component of the flow-controlled device according to the 19th preferred embodiment of the invention, wherein should
Illustrated by figure is a kind of optional enforcement of the anti-wear component of the flow-controlled device.
Figure 100 A are the schematic top plan view of the flow-controlled device according to the 19th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the first working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 100 B are the schematic top plan view of the flow-controlled device according to the 19th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in the second working position, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 100 C are the schematic top plan view of the flow-controlled device according to the 19th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in three working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 100 D are the schematic top plan view of the flow-controlled device according to the 19th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in four working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 100 E are the schematic top plan view of the flow-controlled device according to the 19th preferred embodiment of the invention, and the wherein figure show and works as
When the flow-controlled device is in five working positions, the position of the first flow control element of the flow-controlled device with respect to the second flow control element.
Figure 101 is the generalized section of the water treatment system according to the 19th preferred embodiment of the invention, the wherein water process
The flow-controlled device of system is in above-mentioned first working position.
Specific embodiment
It is described below to be disclosed for so that those skilled in the art manufacture and use the present invention.Middle offer described below compared with
Only as the example and modification that will be apparent to those skilled in the art, it does not constitute the limit to the scope of the invention to good embodiment
System.General Principle defined in described below can be applied to without departing substantially from spirit of the invention and invention scope other embodiments,
Optional replacement, modification, equivalent are implemented and are applied.
As shown in figure 4, when using the present invention, control valve is installed in water treatment tank 40s, filter element 44s is arranged on water
In process tank 40s, or filtering material composition filter element 44s, the filter element first of valve body 30s are directly filled in water treatment tank 40s
Interface 38s passes through upper collection umbrella 41s and is connected on the outside of filter element 44s, and filter element second interface 39s is by central canal 42s and next part
Umbrella 43s is connected with filter element 44s.Original water inlet 31s is connected to into raw water water pipe, pure water inlet 32s is connected to into water purification water outlet
Pipe, by blowdown interface 33s drainage position is connected to.By rotary valve rod 61s, you can rotate moving valve plate 20s to switch and fixed valve plate
10s different overlap conditions is realizing difference in functionality.For rotation valve rod, can be driven using rotation manually or program controlled motor
The mode that ovable valve stem is rotated.
Embodiment one:
Persistently supply water during flushing, monocyclic four hole fixed valve plate, the scheme of single intake tunnel.
As shown in Figures 1 to 4, moving valve plate combination, a kind of multifunctional control valve, including valve are determined using shown in Fig. 2 to Fig. 3
Fixed valve plate 10s and moving valve plate that body 30s, lid 60s, valve rod 61s, the employing end face rotary seal that is placed in valve body 30s coordinate
20s, moving valve plate 20s and valve rod 61s connect, and original water inlet 31s, pure water inlet 32s, blowdown interface are provided with valve body 30s
33s, filter element first interface 38s and filter element second interface 39s, are provided with fixed valve plate 10s:Filter element first interface passage 1s, filter
Core second interface passage 3s, fifth hole 5s and clematis stem hole 6s, in control valve, filter element first interface passage 1s and filter element the
One interface 38s is connected, and filter element second interface passage 3s is connected with filter element second interface 39s, and fifth hole 5s goes out with water purification
Mouth 32s is connected, and clematis stem hole 6s is connected with blowdown interface 33s;It is provided with moving valve plate 20s and is connected with original water inlet 31s
Logical intake tunnel 21s, is additionally provided with conducting blind hole 22s on moving valve plate 20s.As shown in Fig. 5, Fig. 7, Fig. 9, fixed valve plate 10s and
The matching relationship of moving valve plate 20s includes:Filter element first interface passage 1s is connected with intake tunnel 21s, filter element second interface passage
3s and fifth hole 5s is connected with conducting blind hole 22s, and clematis stem hole 6s is passive, and valve block 20s closings are covered;Or filter element second interface
Passage 3s and fifth hole 5s are connected with intake tunnel 21s, filter element first interface passage 1s and clematis stem hole 6s with conducting blind hole
22s is connected;Or filter element first interface passage 1s and fifth hole 5s are connected with intake tunnel 21s, filter element second interface passage 3s
Connect with clematis stem hole 6s with conducting blind hole 22s.
Three functions of producing 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
Filter element first interface passage 1s on fixed valve plate 10s overlaps connection, and conducting blind hole 22s connects with the filter element second on fixed valve plate 10s
Mouth passage 3s is overlapped with fifth hole 5s and connected.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 the filter element first interface passage 1s of fixed valve plate 10s, because
Filter element first interface passage 1s is connected with filter element first interface 38s, so current flow through filter element first interface 38s, by upper
Collection umbrella 41s, is flowed into the outside of filter element 44s, and after filter material is filtered next part umbrella 43s is flowed into, and is flowed into by filter element inner side 45s
To filter element second interface 39s, because filter element second interface 39s is connected with the filter element second interface passage 3s of fixed valve plate 10s, institute
With current stream to filter element second interface passage 3s, by the water conservancy diversion of conducting blind hole 22s of moving valve plate 20s, fixed valve plate 10s is flowed into
Fifth hole 5s, because fifth hole 5s is connected with pure water inlet 32s, thus current stream to pure water inlet 32s supply water.This
When, clematis stem 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 Chong Die with filter element second interface passage 3s and fifth hole 5s on fixed valve plate 10s, turn on blind hole 22s and determine
Filter element first interface passage 1s and clematis stem hole 6s on valve block 10s overlaps connection.Under this valve block overlap condition, current are such as
Under:The filter element of fixed valve plate 10s is flowed into into the intake tunnel 21s of the driven valve block 20s of current of valve body by original water inlet 31s
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 and supplies water;Meanwhile, current flow through filter element second interface passage 3s, due to filter element second interface
Passage 3s is connected with filter element second interface 39s, so current flow through filter element second interface 39s, flows through filter element inner side 45s, stream
Jing next part umbrella 43s, after back flush filter element 44s, flow through collection umbrella 41s, stream to filter element first interface 38s, due to filter element first
Interface 38s is connected with filter element first interface passage 1s, so current stream is to filter element first interface passage 1s, by moving valve plate
The water conservancy diversion of conducting blind hole 22s of 20s, is flowed into the clematis stem hole 6s of fixed valve plate 10s, due to clematis stem hole 6s and blowdown interface
33s is connected, so current pass through blowdown interface 33s drainings.
Just washing simultaneously for 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 Chong Die with filter element first interface passage 1s and fifth hole 5s on fixed valve plate 10s, turn on blind hole 22s and determine
Filter element second interface passage 3s and clematis stem hole 6s on valve block 10s overlaps connection.Under this valve block overlap condition, current are such as
Under:The filter element of fixed valve plate 10s is flowed into into the intake tunnel 21s of the driven valve block 20s of current of valve body by original water inlet 31s
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 and supplies water;Meanwhile, current flow through filter element first interface passage 1s, due to filter element first interface
Passage 1s is connected with filter element first interface 38s, so current flow through filter element first interface 38s, by upper collection umbrella 41s, flows into
To the outside of filter element 44s, next part umbrella 43s is flowed into after forward direction flushing filter material, filter element second is flowed into by filter element inner side 45s and is connect
Mouth 39s, because filter element second interface passage 3s is connected with filter element second interface 39s, so current stream is to filter element second interface
Passage 3s, by the water conservancy diversion of conducting blind hole 22s of moving valve plate 20s, is flowed into the clematis stem hole 6s of fixed valve plate 10s, 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 supply 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, using shown in Figure 10 to Figure 11 moving valve plate combination, a kind of multi-functional control are determined
Valve, including the fixed valve plate 10s that valve body 30s, lid 60s, valve rod 61s, the employing end face rotary seal that is placed in valve body 30s coordinate
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
Dirty interface 33s, filter element first interface 38s and filter element second interface 39s, are provided with fixed valve plate 10s:First through hole 102s,
Two through hole 202s, third through-hole 302s, fourth hole 402s, fifth hole 502s and clematis stem hole 602s, in control valve, the
One through hole 102s and the second through hole 202s are interconnected and are connected with filter element first interface 38s, third through-hole 302s and
Four through hole 402s are interconnected and are connected with filter element second interface 39s, and fifth hole 502s is connected with pure water inlet 32s
Logical, clematis stem hole 602s is connected with blowdown interface 33s;First be connected with original water inlet 31s is provided with moving valve plate 20s
Intake tunnel 2102s and the second intake tunnel 2302s, is additionally provided with conducting blind hole 2202s on moving valve plate 20s.Such as Figure 13, figure
15th, shown in Figure 17, the matching relationship of fixed valve plate 10s and moving valve plate 20s includes:First through hole 102s and the first intake tunnel
2102s is connected, and the second through hole 202s connects with the second intake tunnel 2302s, third through-hole 302s and fifth hole 502s with lead
Logical blind hole 2202s connection, fourth hole 402s and clematis stem hole 602s is passive, and valve block 20s closings are covered;Or third through-hole 302s
Connect with the second intake tunnel 2302s, fourth hole 402s is connected with the first intake tunnel 2102s, first through hole 102s and
Clematis stem hole 602s is connected with conducting blind hole 2202s, and the second through hole 202s and fifth hole 502s is passive, and valve block 20s closings 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 clematis stem hole 602s are connected with conducting blind hole 2202s, third through-hole 302s and fifth hole 502s passive valve
Piece 20s closings are covered.
Three functions of producing the following detailed description of the different matching relationships for determining moving valve plate.
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 are Chong Die with first through hole 102s on fixed valve plate 10s and the second through hole 202s respectively to be connected
It is logical, the connection Chong Die with third through-hole 302s and fifth hole 502s on fixed valve plate 10s of conducting blind hole 2202s.In this valve block
Under overlap condition, current are as follows:First intake tunnel of the driven valve block 20s of current of valve body is entered by original water inlet 31s
2102s and the second intake tunnel 2302s are flowed into first through hole 102s and the second through hole 202s of fixed valve plate 10s, because first
Through hole 102s and the second through hole 202s are connected with filter element first interface 38s, so current flow through filter element first interface 38s, lead to
Collection umbrella 41s is crossed, the outside of filter element 44s is flowed into, after filter material is filtered next part umbrella 43s is flowed into, by filter element inner side 45s
Filter element second interface 39s is flowed into, because filter element second interface 39s is connected with the third through-hole 302s of fixed valve plate 10s, so
Current stream, by the water conservancy diversion of conducting blind hole 2202s of moving valve plate 20s, is flowed into the 5th of fixed valve plate 10s the to third through-hole 302s
Through hole 502s, because fifth hole 502s is connected with pure water inlet 32s, so current stream supplies water to pure water inlet 32s.This
When, fourth hole 402s and clematis stem hole 602s is passive, and valve block 20s closings 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 fixed valve plate 10s on fourth hole 402s and threeway
Hole 302s overlaps connection, and conducting blind hole 2202s is Chong Die with first through hole 102s and clematis stem hole 602s on fixed valve plate 10s to be connected
It is logical.Under this valve block overlap condition, current are as follows:Entered by original water inlet 31s valve body the driven valve block 20s of current the
One intake tunnel 2102s and the second intake tunnel 2302s are flowed into the fourth hole 402s and third through-hole of fixed valve plate 10s
302s, because third through-hole 302s and fourth hole 402s are interconnected and are connected with filter element second interface 39s, so water
Stream flows through filter element second interface 39s, flows through filter element inner side 45s, flows through next part umbrella 43s, after back flush filter element 44s, flows through
Collection umbrella 41s, stream to filter element first interface 38s, because filter element first interface 38s is connected with first through hole 102s, so current
First through hole 102s is flowed, by the water conservancy diversion of conducting blind hole 2202s of moving valve plate 20s, the clematis stem hole of fixed valve plate 10s is flowed into
602s, because clematis stem 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 fixed valve plate 10s on the second through hole 202s and first through hole
102s overlaps connection, the connection Chong Die with fourth hole 402s and clematis stem hole 602s on fixed valve plate 10s of conducting blind hole 2202s.
Under this valve block overlap condition, current are as follows:By original water inlet 31s enter valve body the driven valve block 20s of current first
Intake tunnel 2102s and the second intake tunnel 2302s are flowed into the second through hole 202s and first through hole 102s of fixed valve plate 10s,
Because first through hole 102s and the second through hole 202s are connected with filter element first interface 38s, current flow through filter element first and connect
Mouth 38s, by upper collection umbrella 41s, is flowed into the outside of filter element 44s, and forward direction is rinsed after filter material and is flowed into next part umbrella 43s, by filter
In-core side 45s is flowed into filter element second interface 39s, because fourth hole 402s is connected with filter element second interface 39s, so water
Stream stream, by the water conservancy diversion of conducting blind hole 2202s of moving valve plate 20s, is flowed into the clematis stem of fixed valve plate 10s to fourth hole 402s
Hole 602s, because clematis stem 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 supply 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, using shown in Figure 18 to Figure 19 moving valve plate combination is determined, one kind is multi-functional
Control valve, including valve body 30s, lid 60s, valve rod 61s, the employing end face rotary seal that is placed in valve body 30s coordinate determine valve
Piece 10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connect, and original water inlet 31s, pure water inlet are provided with valve body 30s
32s, blowdown interface 33s, filter element first interface 38s and filter element second interface 39s, are provided with fixed valve plate 10s:Filter element first connects
Mouthful passage 103s, filter element second interface passage 303s, fifth hole 503s and clematis stem hole 603s, in control valve, filter element the
One interface channel 103s is connected with filter element first interface 38s, filter element second interface passage 303s and filter element second interface 39s phase
Connection, fifth hole 503s is connected with pure water inlet 32s, and clematis stem hole 603s is connected with blowdown interface 33s;Moving valve plate
The intake tunnel 2103s being connected with original water inlet 31s is provided with 20s, conducting blind hole is additionally provided with moving valve plate 20s
2203s.As shown in Figure 20, Figure 21, Figure 22, the matching relationship of fixed valve plate 10s and moving valve plate 20s includes:Filter element first interface leads to
Road 103s is connected with intake tunnel 2103s, and filter element second interface passage 303s and fifth hole 503s connects with conducting blind hole 2203s
Logical, clematis stem hole 603s is passive, and valve block 20s closings are covered;Or filter element second interface passage 303s is connected with intake tunnel 2103s,
Filter element first interface passage 103s and clematis stem hole 603s is connected with conducting blind hole 2203s, the passive valve block 20s of fifth hole 503s
Closing is covered;Or filter element first interface passage 103s is connected with intake tunnel 2103s, filter element 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.
The structure of relatively Figure 18 to Figure 19 and Fig. 2 to Fig. 3, embodiment three and embodiment one is distinguished and 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 supplies raw water in backwash and when just washing.Three of embodiment three and embodiment one
The current explanation of functional position is similar, backwash is only lifted here and does not supply one explanation of raw water function simultaneously, and other two functions are just
No longer describe 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 Chong Die with the filter element second interface passage 303s on fixed valve plate 10s, turn on blind hole 2203s and determine valve
Filter element first interface passage 103s and clematis stem hole 603s on piece 10s overlaps connection.Under this valve block overlap condition, water
Stream is as follows:Fixed valve plate 10s is flowed into into the intake tunnel 2103s of the driven valve block 20s of current of valve body by original water inlet 31s
Filter element second interface passage 303s, because filter element second interface passage 303s is connected with filter element second interface 39s, so water
Stream flows through filter element second interface 39s, flows through filter element inner side 45s, flows through next part umbrella 43s, after back flush filter element 44s, flows through
Collection umbrella 41s, stream to filter element first interface 38s, because filter element first interface 38s is connected with filter element first interface passage 103s,
So current stream is to filter element first interface passage 103s, by the water conservancy diversion of conducting blind hole 2203s of moving valve plate 20s, it is fixed to be flowed into
The clematis stem hole 603s of valve block 10s, because clematis stem hole 603s is connected with blowdown interface 33s, so current are connect by blowdown
Mouth 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, using shown in Figure 23 and Figure 24 moving valve plate combination is determined, one kind is multi-functional
Control valve, including valve body 30s, lid 60s, valve rod 61s, the employing end face rotary seal that is placed in valve body 30s coordinate determine valve
Piece 10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connect, and original water inlet 31s, pure water inlet are provided with valve body 30s
32s, blowdown interface 33s, filter element first interface 38s and filter element second interface 39s, are provided with fixed valve plate 10s:Filter element first connects
Mouth passage 104s, filter element second interface passage 304s, fifth hole 504s and clematis stem hole 604s, wherein filter element first interface lead to
Road 104s, filter element second interface passage 304s and clematis stem hole 604s are arranged on the internal ring of fixed valve plate 10s, fifth hole 504s
It is arranged in the inner ring and outer rings of fixed valve plate 10s.In control valve, filter element first interface passage 104s and filter element first interface
38s is connected, and filter element second interface passage 304s is connected with filter element second interface 39s, fifth hole 504s and pure water inlet
32s is connected, and clematis stem hole 604s is connected with blowdown interface 33s;It is provided with moving valve plate 20s and is connected with original water inlet 31s
Logical intake tunnel 2104s, is additionally provided with conducting blind hole 2204s on moving valve plate 20s.As shown in Figure 25, Figure 26, Figure 27, valve is determined
The matching relationship of piece 10s and moving valve plate 20s includes:Filter element first interface passage 104s is connected with intake tunnel 2104s, filter element
Two interface channel 304s and fifth hole 504s are connected with conducting blind hole 2204s, and clematis stem hole 604s is passive, and valve block 20s closings hide
Lid;Or filter element 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 clematis stem hole 604s is connected with conducting blind hole 2204s;Or filter element first interface passage 104s with
Intake tunnel 2104s is connected, and fifth hole 504s connects with original water inlet 31s, filter element second interface passage 304s and clematis stem
Hole 604s is connected with conducting blind hole 2204s.
Three functions of producing the following detailed description of the different matching relationships for determining moving valve plate.
Filtering function:As shown in Fig. 4, Figure 25, by rotary valve rod 61s, by the intake tunnel 2104s on moving valve plate 20s
Connection Chong Die with the filter element first interface passage 104s on fixed valve plate 10s, turns on blind hole 2204s and the filter element on fixed valve plate 10s
Second interface passage 304s is overlapped with fifth hole 504s and connected.Under this valve block overlap condition, current are as follows:By raw water
Import 31s is flowed into the filter element first interface of fixed valve plate 10s into the intake tunnel 2104s of the driven valve block 20s of current of valve body
Passage 104s, because filter element first interface passage 104s is connected with filter element first interface 38s, current flow through filter element first
Interface 38s, by upper collection umbrella 41s, is flowed into the outside of filter element 44s, and after filter material is filtered next part umbrella 43s is flowed into, and passes through
Filter element inner side 45s is flowed into filter element second interface 39s, due to filter element second interface 39s and the filter element second interface of fixed valve plate 10s
Passage 304s is connected, so current stream is to filter element second interface passage 304s, by conducting blind hole 2204s of moving valve plate 20s
Water conservancy diversion, be flowed into the fifth hole 504s of fixed valve plate 10s, because fifth hole 504s is connected with pure water inlet 32s, so
Current stream to pure water inlet 32s supplies water.Now, the passive valve block 20s closings of clematis stem 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 Chong Die with the filter element second interface passage 304s on fixed valve plate 10s, conducting blind hole 2204s and fixed valve plate 10s
On filter element first interface passage 104s and clematis stem hole 604s overlap connection because the fifth hole 504s of fixed valve plate 10s
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
Under planting valve block overlap condition, current are as follows:The current point two-way for entering valve body by original water inlet 31s enters fixed valve plate 10s, and one
The partial through holes on outer shroud of the fifth hole 504s that road current are covered by impassive valve block 20s are logical into the 5th
Hole 504s, because fifth hole 504s is connected with pure water inlet 32s, so undressed raw water is directly from pure water inlet
32s flows out and supplies water;Simultaneously the intake tunnel 2104s of the driven valve block 20s of another road current is flowed into the filter element second of fixed valve plate 10s
Interface channel 304s, because filter element second interface passage 304s is connected with filter element second interface 39s, so current flow through filter element
Second interface 39s, flows through filter element inner side 45s, flows through next part umbrella 43s, after back flush filter element 44s, flows through collection umbrella 41s, stream
To filter element first interface 38s, because filter element first interface 38s is connected with filter element first interface passage 104s, so current stream
To filter element first interface passage 104s, by the water conservancy diversion of conducting blind hole 2204s of moving valve plate 20s, the of fixed valve plate 10s is flowed into
Clematis stem hole 604s, because clematis stem hole 604s is connected with blowdown interface 33s, so current pass through blowdown interface 33s drainings.
Just washing simultaneously for 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 Chong Die with the filter element first interface passage 104s on fixed valve plate 10s, conducting blind hole 2204s and fixed valve plate 10s
On filter element second interface passage 304s and clematis stem hole 604s overlap connection because the fifth hole 504s of fixed valve plate 10s
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
Under planting valve block overlap condition, current are as follows:The current point two-way for entering valve body by original water inlet 31s enters fixed valve plate 10s, and one
The partial through holes on outer shroud of the fifth hole 504s that road current are covered by impassive valve block 20s enter fifth hole
504s, because fifth hole 504s is connected with pure water inlet 32s, so undressed raw water is directly from pure water inlet 32s
Flow out and supply water;Simultaneously the intake tunnel 2104s of the driven valve block 20s of another road current is flowed into the filter element first of fixed valve plate 10s and connects
Mouthful passage 104s, because filter element first interface passage 104s is connected with filter element first interface 38s, so current flow through filter element the
One interface 38s, by upper collection umbrella 41s, is flowed into the outside of filter element 44s, and forward direction is rinsed after filter material and is flowed into next part umbrella 43s, leads to
Filtration core inner side 45s is flowed into filter element second interface 39s, due to filter element second interface passage 304s and filter element second interface 39s
It is connected, so current stream is to filter element second interface passage 304s, by the water conservancy diversion of conducting blind hole 2204s of moving valve plate 20s, stream
Enter the clematis stem hole 604s to fixed valve plate 10s, because clematis stem hole 604s is connected with blowdown interface 33s, so current pass through
Blowdown interface 33s drainings.
Embodiment five:
During flushing for raw water, bicyclic four hole fixed valve plate, single intake tunnel scheme.
As shown in Fig. 1, Fig. 4, Figure 24, Figure 28, using shown in Figure 28 and Figure 24 moving valve plate combination, a kind of Multifunctional controlling are determined
Valve processed, including the fixed valve plate that valve body 30s, lid 60s, valve rod 61s, the employing end face rotary seal that is placed in valve body 30s coordinate
10s and moving valve plate 20s, moving valve plate 20s and valve rod 61s connect, be provided with valve body 30s original water inlet 31s, pure water inlet 32s,
Blowdown interface 33s, filter element first interface 38s and filter element second interface 39s, are provided with fixed valve plate 10s:Filter element first interface leads to
Road 105s, filter element second interface passage 305s, wherein fifth hole 505s and clematis stem hole 605s, filter element first interface passage
105s, filter element second interface passage 305s and clematis stem hole 605s are arranged on the internal ring of fixed valve plate 10s, and fifth hole 505s sets
Put on the outer shroud of fixed valve plate 10s.In control valve, filter element first interface passage 105s is connected with filter element first interface 38s,
Filter element second interface passage 305s is connected with filter element second interface 39s, and fifth hole 505s is connected with pure water inlet 32s,
Clematis stem hole 605s is connected with blowdown interface 33s;It is provided with the water inlet being connected with original water inlet 31s on moving valve plate 20s to lead to
Road 2104s, is additionally provided with conducting blind hole 2204s on moving valve plate 20s.As shown in Figure 29, Figure 30, Figure 31, fixed valve plate 10s and dynamic valve
The matching relationship of piece 20s includes:Filter element first interface passage 105s is connected with intake tunnel 2104s, filter element second interface passage
305s and fifth hole 505s is connected with conducting blind hole 2204s, and clematis stem hole 605s is passive, and valve block 20s closings are covered;Or filter element
Second interface passage 305s is connected with intake tunnel 2104s, and fifth hole 505s is connected with original water inlet 31s, and filter element first connects
Mouth passage 105s and clematis stem hole 605s is connected with conducting blind hole 2204s;Or filter element first interface passage 105s and intake tunnel
2104s is connected, and fifth hole 505s connects with original water inlet 31s, filter element second interface passage 305s and clematis stem hole 605s and
Conducting blind hole 2204s connection.
The structure of relatively Figure 28 and Figure 23, embodiment five and example IV is distinguished and 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 simultaneously for raw water function:As shown in Fig. 8, Figure 31.
As shown in figure 35, when using the present invention, control valve is installed in water treatment tank 40t, filter element 44t is arranged on water
In process tank 40t, or filtering material composition filter element 44t, the filter element first of valve body 30t are directly filled in water treatment tank 40t
Interface 38t passes through upper collection umbrella 41t and is connected on the outside of filter element 44t, and filter element second interface 39t is by central canal 42t and next part
Umbrella 43t is connected with filter element 44t.Original water inlet 31t is connected to into raw water water pipe, pure water inlet 32t is connected to into water purification water outlet
Pipe, by blowdown interface 33t drainage position is connected to.By rotary valve rod 61t, you can rotate moving valve plate 20t to switch and fixed valve plate
10t different overlap conditions is realizing difference in functionality.For rotation valve rod, can be driven using rotation manually or program controlled motor
The mode that ovable valve stem is rotated.
Embodiment six:
Persistently supply water during flushing, by the scheme of the blowdown interface blowdown on valve rod to lid.
As shown in Figure 32 to Figure 35, using shown in Figure 33 to Figure 34 moving valve plate combination, a kind of multifunctional control valve, bag are determined
Include valve body 30t, the fixed valve plate 10t that lid 60t, valve rod 61t, the employing end face rotary seal that is placed in valve body 30t coordinate and dynamic
Valve block 20t, moving valve plate 20t and valve rod 61t connect, and original water inlet 31t, pure water inlet 32t, filter element the is provided with valve body 30t
One interface 38t and filter element second interface 39t, are provided with blowdown interface 33t on lid;It is provided with fixed valve plate 10t:First through hole
1t, the second through hole 2t and third through-hole 3t, in control valve, first through hole 1t is connected with filter element first interface 38t, and second leads to
Hole 2t is connected with filter element second interface 39t, and third through-hole 3t is connected with pure water inlet 32t;Be provided with moving valve plate 20t with
The intake tunnel 21t that original water inlet 31t is connected, is additionally provided with conducting blind hole 22t and blowdown through hole 23t, row on moving valve plate 20t
The second blowdown through hole 64t that dirty through hole 23t is passed sequentially through on the first blowdown through hole 63t and lid 60t on valve rod 61t is communicated to
Blowdown interface 33t on lid 60t.As shown in Figure 36, Figure 38, Figure 40, the matching relationship bag of fixed valve plate 10t and moving valve plate 20t
Include:First through hole 1t is connected with intake tunnel 21t, and the second through hole 2t and third through-hole 3t is connected with conducting blind hole 22t, and blowdown is led to
Hole 23t is covered by fixed valve plate 10t closings;Or second through hole 2t and third through-hole 3t connect with intake tunnel 21t, turn on blind hole
22t and blowdown through hole 23t are connected with first through hole 1t;Or first through hole 1t is connected with intake tunnel 21t, first through hole 1t and
Three through hole 3t are connected with conducting blind hole 22t, and the second through hole 2t is connected with blowdown through hole 23t.
Three functions of producing the following detailed description of the different matching relationships for determining moving valve plate.
Filtering function:As shown in Figure 35 to Figure 36, by rotary valve rod 61t, by the intake tunnel 21t on moving valve plate 20t
Connection Chong Die with first through hole 1t on fixed valve plate 10t, turns on blind hole 22t and the second through hole 2t and the 3rd on fixed valve plate 10t
Through hole 3t overlaps connection, and blowdown through hole 23t is covered by fixed valve plate 10t closings.Under this valve block overlap condition, current are as follows:
Led to into the intake tunnel 21t of the driven valve block 20t of current of valve body is flowed into fixed valve plate 10t first by original water inlet 31t
Hole 1t, because first through hole 1t is connected with filter element first interface 38t, current flow through filter element first interface 38t, by upper
Collection umbrella 41t, is flowed into the outside of filter element 44t, and after filter material is filtered next part umbrella 43t is flowed into, and is flowed into by filter element inner side 45t
To filter element second interface 39t, because filter element second interface 39t is connected with the second through hole 2t of fixed valve plate 10t, so current stream
To the second through hole 2t, by the water conservancy diversion of conducting blind hole 22t of moving valve plate 20t, the third through-hole 3t of fixed valve plate 10t is flowed into, by
It is connected with pure water inlet 32t in third through-hole 3t, so current stream supplies water to pure water inlet 32t.Now, blowdown through hole 23t
Not water flowing is covered by fixed valve plate 10t closings, so blowdown interface 33t non-water flows.
Backwash supplies raw water function simultaneously:As shown in Figure 37 to Figure 38, by rotary valve rod 61t, by entering on moving valve plate 20t
Aquaporin 21t connections Chong Die with the second through hole 2t and third through-hole 3t on fixed valve plate 10t, conducting blind hole 22t and fixed valve plate 10t
On first through hole 1t overlap connection, blowdown through hole 23t it is Chong Die with first through hole 1t on fixed valve plate 10t connects.In this valve
Under piece overlap condition, current are as follows:The intake tunnel 21t streams of the driven valve block 20t of current of valve body are entered by original water inlet 31t
Enter the second through hole 2t and third through-hole 3t to fixed valve plate 10t, because third through-hole 3t is connected with pure water inlet 32t, so
Undressed raw water directly flows out from pure water inlet 32t and supplies water;Meanwhile, current flow through the second through hole 2t, due to the second through hole
2t is connected with filter element second interface 39t, so current flow through filter element second interface 39t, flows through filter element inner side 45t, flows through down
Collection umbrella 43t, after back flush filter element 44t, flows through collection umbrella 41t, stream to filter element first interface 38t, due to filter element first interface
38t is connected with first through hole 1t, so current stream then after blowdown through hole 23t, then is passed sequentially through to first through hole 1t
Connect by the blowdown on lid 60t after the second blowdown through hole 64t on the first blowdown through hole 63t and lid 60t on valve rod 61t
Mouth 33t blowdowns.Now, the only connection Chong Die with first through hole 1t on fixed valve plate 10t of blind hole 22t is turned on, so just serving
Closing covering effect.
Just washing simultaneously for raw water function:As shown in Figure 39 to Figure 40, by rotary valve rod 61t, by entering on moving valve plate 20t
Aquaporin 21t connections Chong Die with first through hole 1t on fixed valve plate 10t, turn on blind hole 22t and the first through hole on fixed valve plate 10t
1t is overlapped with third through-hole 3t and connected, blowdown through hole 23t connections Chong Die with the second through hole 2t on fixed valve plate 10t.In this valve
Under piece overlap condition, current are as follows:The intake tunnel 21t streams of the driven valve block 20t of current of valve body are entered by original water inlet 31t
Enter first through hole 1t to fixed valve plate 10t, then current point two-way advances, wherein current leading by conducting blind hole 22t all the way
Stream, is flowed into the third through-hole 3t of fixed valve plate 10t, because third through-hole 3t is connected with pure water inlet 32t, so unprocessed
Raw water directly from pure water inlet 32t flow out supply water;Meanwhile, another road current flow through first through hole 1t, due to first through hole 1t
It is connected with filter element first interface 38t, so current flow through filter element first interface 38t, by upper collection umbrella 41t, is flowed into filter element
The outside of 44t, forward direction is rinsed after filter material and is flowed into next part umbrella 43t, and by filter element inner side 45t filter element second interface 39t is flowed into,
Because the second through hole 2t is connected with filter element second interface 39t, so current stream is to the second through hole 2t, then by blowdown through hole
After 23t, then pass sequentially through and pass through after the second blowdown through hole 64t on the first blowdown through hole 63t and the lid 60t on valve rod 61t
Blowdown interface 33t blowdowns on lid 60t.
Embodiment seven:
Persistently supply water during flushing, by the scheme of the fourth hole blowdown of fixed valve plate.
As shown in Figure 32, Figure 41 to Figure 43, using shown in Figure 41 to Figure 42 moving valve plate combination, a kind of multi-functional control are determined
Valve, including the fixed valve plate 10t that valve body 30t, lid 60t, valve rod 61t, the employing end face rotary seal that is placed in valve body 30t coordinate
With moving valve plate 20t, moving valve plate 20t and valve rod 61t connection, original water inlet 31t, pure water inlet 32t, row are provided with valve body 30t
Dirty interface 33t, filter element first interface 38t and filter element second interface 39t;It is provided with fixed valve plate 10t:First through hole 1t, second
Through hole 2t and third through-hole 3t, control valve in, first through hole 1t is connected with filter element first interface 38t, the second through hole 2t and
Filter element second interface 39t is connected, and third through-hole 3t is connected with pure water inlet 32t, and the center of fixed valve plate 10t is additionally provided with
Fourth hole 4t;The intake tunnel 21t being connected with original water inlet 31t is provided with moving valve plate 20t, is also set on moving valve plate 20t
Conducting blind hole 22t and blowdown blind hole 2302t are equipped with, one end of blowdown blind hole 2302t is located at the center of moving valve plate 20t, and blowdown is blind
Hole 2302t is connected by fourth hole 4t with blowdown interface 33t.As shown in Figure 44, Figure 46, Figure 48, fixed valve plate 10t and dynamic valve
The matching relationship of piece 20t includes:First through hole 1t is connected with intake tunnel 21t, the second through hole 2t and third through-hole 3t with conducting
Blind hole 22t is connected, and fourth hole 4t is connected with blowdown blind hole 2302t;Or second through hole 2t and third through-hole 3t and intake tunnel
21t is connected, and first through hole 1t is connected with conducting blind hole 22t, and first through hole 1t and fourth hole 4t connect with blowdown blind hole 2302t
It is logical;Or first through hole 1t is connected with intake tunnel 21t, first through hole 1t and third through-hole 3t are connected with conducting blind hole 22t, second
Through hole 2t and fourth hole 4t are connected with blowdown blind hole 2302t.
The structure of embodiment seven and embodiment six is distinguished:The fixed valve plate 10t's of embodiment seven is provided centrally with the 4th
Through hole 4t, is provided with blowdown blind hole 2302t on moving valve plate 20t;And there is no fourth hole 4t on the fixed valve plate of embodiment six, move valve
Blowdown through hole is provided that on piece.This structure is distinguished and causes the difference of blowdown mode as follows:The blowdown side of embodiment seven
Formula:By the fourth hole 4t of the blowdown blind hole 2302t water conservancy diversion stream of moving valve plate to fixed valve plate, the blowdown interface on valve body is then flowed into
Draining;The blowdown mode of embodiment six:By the blowdown through hole 23t of moving valve plate, then the first blowdown passed sequentially through on valve rod is led to
After the second blowdown through hole on hole and lid, by the blowdown interface draining on lid.So embodiment seven and embodiment six are removed
Above-mentioned blowdown mode is different outer, and other explanations are all similar, is taken a single example here and backwash is carried out for raw water function simultaneously
Describe in detail, other two functions are no longer described in detail.
Backwash supplies raw water function simultaneously:As shown in Figure 45 to Figure 46, by rotary valve rod 61t, by entering on moving valve plate 20t
Aquaporin 21t connections Chong Die with the second through hole 2t and third through-hole 3t on fixed valve plate 10t, conducting blind hole 22t and fixed valve plate 10t
On first through hole 1t overlap connection, blowdown blind hole 2302t is Chong Die with first through hole 1t and fourth hole 4t on fixed valve plate 10t
Connection.Under this valve block overlap condition, current are as follows:Enter the driven valve block 20t's of current of valve body by original water inlet 31t
Intake tunnel 21t is flowed into the second through hole 2t and third through-hole 3t of fixed valve plate 10t, due to third through-hole 3t and pure water inlet
32t is connected, so undressed raw water directly flows out from pure water inlet 32t supplying water;Meanwhile, current flow through the second through hole
2t, because the second through hole 2t is connected with filter element second interface 39t, so current flow through filter element second interface 39t, flows through filter element
Inner side 45t, flows through next part umbrella 43t, after back flush filter element 44t, flows through collection umbrella 41t, and stream arrives filter element first interface 38t, by
It is connected with first through hole 1t in filter element first interface 38t, so current stream is to first through hole 1t, by the row of moving valve plate 20t
Dirty blind hole 2302t water conservancy diversion stream to fixed valve plate 10t fourth hole 4t because fourth hole 4t is connected with blowdown interface 33t, institute
With current stream to blowdown interface 33t drainings.Now, blind hole 22t only company Chong Die with first through hole 1t on fixed valve plate 10t is turned on
It is logical, so just serving covering sealing process.
Filtering function:As shown in Figure 43 to Figure 44.
Just washing simultaneously for raw water function:As shown in Figure 47 to Figure 48.
Embodiment eight:
Raw water is not supplied during flushing, by the scheme of the fourth hole blowdown of fixed valve plate.
As shown in Figure 32, Figure 49 to Figure 51, using shown in Figure 49 to Figure 50 moving valve plate combination, a kind of multi-functional control are determined
Valve, including the fixed valve plate 10t that valve body 30t, lid 60t, valve rod 61t, the employing end face rotary seal that is placed in valve body 30t coordinate
With moving valve plate 20t, moving valve plate 20t and valve rod 61t connection, original water inlet 31t, pure water inlet 32t, row are provided with valve body 30t
Dirty interface 33t, filter element first interface 38t and filter element second interface 39t;It is provided with fixed valve plate 10t:First through hole 103t,
Two through hole 203t and third through-hole 303t, in control valve, first through hole 103t is connected with filter element first interface 38t, and second
Through hole 203t is connected with filter element second interface 39t, and third through-hole 303t is connected with pure water inlet 32t, in fixed valve plate 10t
Fourth hole 403t is additionally provided with the heart;The intake tunnel 2103t being connected with original water inlet 31t is provided with moving valve plate 20t,
Conducting blind hole 2203t and blowdown blind hole 2303t are additionally provided with moving valve plate 20t, one end of blowdown blind hole 2303t is located at moving valve plate
The center of 20t, blowdown blind hole 2303t is connected by fourth hole 403t with blowdown interface 33t.Such as Figure 52, Figure 54, Tu56Suo
Show, the matching relationship of fixed valve plate 10t and moving valve plate 20t includes:First through hole 103t is connected with intake tunnel 2103t, and second leads to
Hole 203t and third through-hole 303t is connected with conducting blind hole 2203t, and fourth hole 403t is connected with blowdown blind hole 2303t;Or the
Two through hole 203t are connected with intake tunnel 2103t, third through-hole 303t with conducting blind hole 2203t connect, first through hole 103t with
Fourth hole 403t is connected with blowdown blind hole 2303t;Or intake tunnel 2103t and conducting blind hole 2203t and first through hole 103t
Connection, the second through hole 203t and fourth hole 403t is connected with blowdown blind hole 2303t, the passive valve block 20t envelopes of third through-hole 303t
Close covering.
Three functions of producing the following detailed description of the different matching relationships for determining moving valve plate.
Filtering function:As shown in Figure 51 to Figure 52, by rotary valve rod 61t, by the intake tunnel on moving valve plate 20t
2103t connections Chong Die with first through hole 103t on fixed valve plate 10t, turn on blind hole 2203t and the second through hole on fixed valve plate 10t
203t is overlapped with third through-hole 303t and connected, the connection Chong Die with the fourth hole 403t of fixed valve plate 10t of blowdown blind hole 2303t.
Under this valve block overlap condition, current are as follows:The water inlet that the driven valve block 20t of current of valve body is entered by original water inlet 31t is led to
Road 2103t is flowed into first through hole 103t of fixed valve plate 10t, because first through hole 103t is connected with filter element first interface 38t,
So current flow through filter element first interface 38t, by upper collection umbrella 41t, the outside of filter element 44t is flowed into, after filter material is filtered
Next part umbrella 43t is flowed into, filter element second interface 39t is flowed into by filter element inner side 45t, due to filter element second interface 39t and calmly
The second through hole 203t of valve block 10t is connected, so current stream is to the second through hole 203t, by the conducting blind hole of moving valve plate 20t
The water conservancy diversion of 2203t, is flowed into the third through-hole 303t of fixed valve plate 10t, because third through-hole 303t is connected with pure water inlet 32t
It is logical, so current stream supplies water to pure water inlet 32t.Now, blowdown blind hole 2303t fourth hole 403t only with fixed valve plate 10t
Connection is overlapped, so blowdown interface 33t non-water flows.
Backwash does not supply raw water function simultaneously:As shown in Figure 53 to Figure 54, by rotary valve rod 61t, by moving valve plate 20t
Intake tunnel 2103t connections Chong Die with the second through hole 203t on fixed valve plate 10t, in conducting blind hole 2203t and fixed valve plate 10t
Third through-hole 303t overlaps connection, the first through hole 103t and fourth hole 403t weight in blowdown blind hole 2303t and fixed valve plate 10t
Folded connection.Under this valve block overlap condition, current are as follows:The driven valve block 20t of current of valve body is entered by original water inlet 31t
Intake tunnel 2103t be flowed into the second through hole 203t of fixed valve plate 10t, due to the second through hole 203t and filter element second interface
39t is connected, so current flow through filter element second interface 39t, flows through filter element inner side 45t, flows through next part umbrella 43t, back flush
After filter element 44t, collection umbrella 41t, stream to filter element first interface 38t, due to filter element first interface 38t and first through hole 103t are flowed through
It is connected, so current stream is to first through hole 103t, by the blowdown blind hole 2303t water conservancy diversion stream of moving valve plate 20t to fixed valve plate 10t
Fourth hole 403t because fourth hole 403t is connected with blowdown interface 33t, current stream to blowdown interface 33t arrange
Water.Now, the only connection Chong Die with the third through-hole 303t on fixed valve plate 10t of blind hole 2203t is turned on, so just serving closing
Covering is acted on, so pure water inlet 32t non-water flows.
Just washing while not supplying raw water function:As shown in Figure 55 to Figure 56, by rotary valve rod 61t, by moving valve plate 20t
Intake tunnel 2103t it is Chong Die with first through hole 103t on fixed valve plate 10t connection, conducting blind hole 2203t also with fixed valve plate 10t on
First through hole 103t overlap the second through hole 203t and fourth hole 403t on connection, blowdown blind hole 2303t and fixed valve plate 10t
Overlap connection.Under this valve block overlap condition, current are as follows:The driven valve block of current of valve body is entered by original water inlet 31t
The intake tunnel 2103t of 20t is flowed into first through hole 103t of fixed valve plate 10t, because first through hole 103t connects with filter element first
Mouth 38t is connected, so current flow through filter element first interface 38t, by upper collection umbrella 41t, is flowed into the outside of filter element 44t, just
Next part umbrella 43t is flowed into rinsing after filter material, filter element second interface 39t is flowed into by filter element inner side 45t, due to the second through hole
203t is connected with filter element second interface 39t, so current stream is to the second through hole 203t, by the blowdown blind hole of moving valve plate 20t
2303t water conservancy diversion stream to fixed valve plate 10t fourth hole 403t because fourth hole 403t is connected with blowdown interface 33t,
Current stream is to blowdown interface 33t drainings.Now, blind hole 2203t company Chong Die with first through hole 103t on fixed valve plate 10t is turned on
It is logical, just serve closing covering effect;The passive valve block 20t closings of third through-hole 303t of fixed valve plate 10t cover not water flowing, institute
With pure water inlet 32t non-water flows.
Embodiment nine:
Raw water is not supplied during flushing, by the scheme of the blowdown interface blowdown on valve rod to lid.
As shown in Figure 32, Figure 57 to Figure 59, using shown in Figure 57 to Figure 58 moving valve plate combination, a kind of multi-functional control are determined
Valve, including the fixed valve plate 10t that valve body 30t, lid 60t, valve rod 61t, the employing end face rotary seal that is placed in valve body 30t coordinate
With moving valve plate 20t, moving valve plate 20t and valve rod 61t connection, original water inlet 31t, pure water inlet 32t, filter are provided with valve body 30t
Core first interface 38t and filter element second interface 39t, are provided with blowdown interface 33t on lid;It is provided with fixed valve plate 10t:First
Through hole 103t, the second through hole 203t and third through-hole 303t, in control valve, first through hole 103t and filter element first interface 38t
It is connected, the second through hole 203t is connected with filter element second interface 39t, and third through-hole 303t is connected with pure water inlet 32t;It is dynamic
The intake tunnel 2103t being connected with original water inlet 31t is provided with valve block 20t, conducting blind hole is additionally provided with moving valve plate 20t
2203t and blowdown through hole 2304t, blowdown through hole 2304t pass sequentially through the first blowdown through hole 63t and lid 60t on valve rod 61t
On the second blowdown through hole 64t be communicated to blowdown interface 33t on lid 60t.As shown in Figure 60, Figure 62, Figure 64, fixed valve plate
The matching relationship of 10t and moving valve plate 20t includes:First through hole 103t is connected with intake tunnel 2103t, the second through hole 203t and
Three through hole 303t are connected with conducting blind hole 2203t, and blowdown through hole 2304t is covered by fixed valve plate 10t closings;Or the second through hole 203t
Connect with intake tunnel 2103t, third through-hole 303t connect with conducting blind hole 2203t, first through hole 103t and blowdown through hole
2304t is connected;Or intake tunnel 2103t and conducting blind hole 2203t are connected with first through hole 103t, the second through hole 203t and blowdown
Through hole 2304t is connected, and third through-hole 303t is passive, and valve block 20t closings are covered.
The structure of embodiment nine and embodiment eight is distinguished:Without fourth hole on the fixed valve plate of embodiment nine, valve is moved
Blowdown through hole 2304t is provided that on piece;And the fixed valve plate of embodiment eight is provided centrally with fourth hole 403t, moving valve plate
Blowdown blind hole 2303t is provided with 20t.This structure is distinguished and causes the difference of blowdown mode as follows:The row of embodiment nine
Dirty mode:By the blowdown through hole 2304t of moving valve plate, then pass sequentially through on the first blowdown through hole and the lid on valve rod second
After blowdown through hole, by the blowdown interface draining on lid;The blowdown mode of embodiment eight:By the blowdown blind hole of moving valve plate
2303t water conservancy diversion stream then flows into the blowdown interface draining on valve body to the fourth hole 403t of fixed valve plate.So embodiment nine and reality
Example eight is applied in addition to above-mentioned blowdown mode difference, other explanations are all similar, just repeat no more here.
Filtering function:As shown in Figure 59 to Figure 60.
Backwash does not supply raw water function simultaneously:As shown in Figure 61 to Figure 62.
Just washing while not supplying raw water function:As shown in Figure 63 to Figure 64.
Embodiment ten:
Employ from blowdown through hole through valve rod to lid again to the technical scheme of the blowdown interface blowdown on valve body.
As shown in Figure 65, blowdown interface 3302t is arranged on valve body 30t, and blowdown through hole 23t is provided with moving valve plate 20t,
The passage of the blowdown of embodiment ten is:After blowdown through hole 23t, pass sequentially through the first blowdown through hole 63t on valve rod 61t and
After the second blowdown through hole 64t on lid 60t, then the blowdown interface 3302t being communicated on valve body 30t.
Embodiment ten and embodiment six and embodiment nine the difference is that only:The blowdown interface 3302t of embodiment ten
It is arranged on valve body 30t, and the blowdown interface 33t of embodiment six, embodiment nine is arranged on lid 60t, embodiment six, enforcement
The passage of the blowdown of example nine is:After blowdown through hole, second on the first blowdown through hole and the lid on valve rod is passed sequentially through
After blowdown through hole, then the blowdown interface being communicated on lid.Other explanations are all similar, repeat no more here.
With reference to shown in Figure 66 A to Figure 69 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 11st preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10 and one
Dynamicly located at the second flow control element 20 of the first flow control element 10, wherein the first flow control element 10 includes first flow control
Body 11, the first flow control body 11 includes a top ends 111, and wherein the top ends 111 form a first flow control face
100;The second flow control element 20 includes a second flow control body 21, and the second flow control body 21 has a bottom 211
With one from the upwardly extending high end 212 in the bottom 211, the bottom 211 forms a second flow control face 200;Wherein
First flow control face 100 of the first flow control element 10 is suitable to be contacted with the second flow control face 200 of the second flow control element 20.
As shown in Figure 66 A to Figure 66 D of accompanying drawing, further, as shown in Figure 67 A to Figure 67 D of accompanying drawing, the flow-controlled device
The top ends 111 of the first flow control element 10 include 1111, first edge portion 1112 of first central part and an extension
The first pars intermedia 1113 between first central part 1111 and the first edge portion 1112, the bottom of the second flow control element 20
End 211 extends in second central part 2111 including 2111, second edge portion 2112 of second central part and one
The second pars intermedia 2113 and second edge portion 2112 between, the wherein flow-controlled device have a first passage 101, second
102, one, passage, 104, the 7th passage 107 of the fourth lane of third channel 103, and the 9th passage 109, wherein
The first passage 101, second channel 102, third channel 103 and fourth lane 104 are respectively arranged on the first flow control element 10
First flow control body 11;7th passage 107 and the 9th passage 109 are respectively arranged on the second flow control body 21, wherein this first
Passage 101, second channel 102, third channel 103 and fourth lane 104 are respectively from the first flow control of the first flow control element 10
First flow control face 100 of body 11 extends downwardly;Wherein the 7th passage 107 is from the bottom 211 of the second flow control body 21
The second flow control face 200 upwardly extend and the second pars intermedia 2113 from the bottom 211 of the second flow control body 21 is to extension
Stretch and formed first lead-through opening 1071 being connected with space outerpace all the time;9th passage 109 is from second flow control
Second flow control face 200 of the bottom 211 of body 21 extends upwardly to the second flow control body 21 of the second flow control element 20
High end 212.In other words, the first lead-through opening 1071 of the 7th passage 107 can keep the 7th passage 107 all the time with outward
Portion space, is especially connected with the space outerpace of flow-controlled device.Preferably, the first passage 101, second channel of the flow-controlled device
102nd, third channel 103 and fourth lane 104 are respectively from the first pars intermedia 1113 of the top ends 111 of the first flow control body 11
Extend out to the first edge portion 1112 of the top ends 111;7th passage 107 of the flow-controlled device is from the second flow control unit
Second pars intermedia 2113 of the bottom 211 of the second flow control body 21 of part 20 stretches out;9th passage 109 of the flow-controlled device
The bottom is extended out to from the second pars intermedia 2113 of the bottom 211 of the second flow control body 21 of the second flow control element 20
The second edge portion 2112 in portion 211.
As shown in Figure 68 A to Figure 68 C of accompanying drawing, the second flow control element 20 can relative to the first flow control element 10 rotate from
And cause the flow-controlled device that there is first working position, second working position and the 3rd working position, wherein working as flow-controlled device
In the first working position when, the 7th passage 107 of flow-controlled device is connected with first passage 101,109 points of the 9th passage of flow-controlled device
It is not connected with second channel 102 and third channel 103;When flow-controlled device is in the second working position, the 7th passage of flow-controlled device
107 are connected respectively with second channel 102 and third channel 103, the 9th passage 109 respectively with first passage 101 and four-way
Road 104 is connected;When flow-controlled device is in three working positions, the 7th passage 107 of flow-controlled device respectively with first passage 101 and the
Triple channel 103 is connected, and the 9th passage 109 of flow-controlled device is connected respectively with second channel 102 and fourth lane 104.
Preferably, when flow-controlled device is in the first working position, the fourth lane 104 of the flow-controlled device is by the second flow control element 20
The second flow control body 21 block, the second flow control body 21 of the second flow control element 20 is respectively by the second channel 102 and should
The upper outer spaced apart of third channel 103 and the flow-controlled device;When the flow-controlled device is in second working position, this second
Second flow control body 21 of flow control element 20 is respectively by the first passage 101 and the top of the fourth lane 104 and the flow-controlled device
Space outerpace is spaced;When the flow-controlled device is in three working positions, the second flow control body 21 of the second flow control element 20
Respectively by the second channel 102 and the upper outer spaced apart of the fourth lane 104 and the flow-controlled device.
It should be noted that the first passage 101 of the flow-controlled device, second channel 102, third channel 103 and fourth lane
104 be spaced from each other respectively located at the first flow control element the first flow control body 11;7th passage 107 and the 9th passage
109 be spaced from each other respectively located at the second flow control element 20 the second flow control body 21.
As shown in Figure 67 A to Figure 67 B of accompanying drawing, the first flow control face 100 of the first flow control element 10 of the flow-controlled device and
Second flow control face 200 of two flow control elements 20 is circle, and the first passage 101 of the flow-controlled device, fourth lane 104, second are led to
Road 102 and third channel 103 are deasil arranged in the first flow control body 11 of the first flow control element 10 with this order;The control
7th passage 107 and the 9th passage 109 of stream device is deasil arranged in the second control of the second flow control element 20 with this order
Stream body 21.Alternatively, the flow-controlled device sets first passage 101, fourth lane 104, second channel 102 and third channel 103
Can also this order be widdershins arranged in the first flow control body 11 of the first flow control element 10;While the 7th of the flow-controlled device the
The passage 109 of passage 107 and the 9th is widdershins arranged in the second flow control body 21 of the second flow control element 20 with this order.
Preferably, the first passage 101, fourth lane 104, second channel 102 and third channel 103 are radially located at
First flow control face 100 of the first flow control element 10, and the 7th passage 107 and the 9th passage 109 radially located at this
Second flow control face 200 of two flow control elements 20.
It is highly preferred that the first passage 101 is extended downwardly from the first flow control face 100 of the first flow control element 10;This
Two passages 102 are extended downwardly from the first flow control face 100 of the first flow control element 10;The third channel 103 is from first flow control
First flow control face 100 of element 10 extends downwardly and stretches out and the fourth lane 104 is from the of the first flow control element 10
One flow control face 100 extends downwardly and stretches out.Further, the shape in the second flow control face 200 of the second flow control element 20
Design according to the first flow control face 100 of the first flow control element 10 with size, so that the second control of the second flow control element 20
Stream interface 200 is suitable to located at the first flow control face 100 of the first flow control element 10, and in relative first control of the second flow control element 20
When fluid element 10 is rotated, the first passage 101, fourth lane of the first flow control body 11 located at the first flow control element 10 is adjusted
104th, second channel 102 and third channel 103 respectively with located at the second flow control element 20 the second flow control body 21 the 7th
Passage 107 is connected with the 9th passage 109, is flowed in the different passages of flow-controlled device of the present invention with controlling current.
As shown in accompanying drawing 67C to Figure 67 D, the first flow control face 100 of the first flow control element 10 of the flow-controlled device has one
The first flow control of core 1000 shown in figure chain lines, the wherein core 1000 located at the first flow control element 10
First central part 1111 of the top ends 111 of body 11;Second flow control face 200 of the second flow control element 20 of the flow-controlled device has
Central area 2000 shown in one figure chain lines, the wherein central area 2000 are located at the second of the second flow control element 20
First flow control of the first flow control element 10 of the second central part 2111 of the bottom 211 of flow control body 21, the wherein flow-controlled device
The core 1000 in face 100 has a first nodal point 1110, and the second flow control face 200 of the second flow control element 20
Central area 2000 has second central point 2110, the wherein portion outside the core 1000 in the first flow control face 100
Dividing can clockwise be divided into a Part I 1001, by five the first bluelines 10002 through the first nodal point 1110
The Part IV 1004 of Part III 1003, of individual Part II 1002, and a Part V 1005;Second flow control
Part outside the central area 2000 in face 200 is by five up times of the second blueline 20002 through second central point 2110
Pin is divided into a first area 2001, the 4th region 2004 and of 2002,2003, one, the 3rd region of second area
Individual 5th region 2005;Wherein every adjacent two first bluelines 10002 in the first flow control face 100 of the first flow control element 10
The central angle alpha 1 of formation is equal in magnitude;Every adjacent two second bluelines in the second flow control face 200 of the second flow control element 20
20002 central angle alphas 2 for being formed are equal in magnitude, wherein Part I 1001 He of the first passage 101 from the first flow control face 100
Part II 1002 is extended downwardly;Part IV of the second channel 102 from the first flow control face 100 of the first flow control element 10
1004 extend downwardly;The third channel 103 is extended downwardly from the Part V 1005 in the first flow control face 100;The fourth lane 104
Extend downwardly from the Part III 1003 in the first flow control face 100;Firstth area of 7th passage 107 from the second flow control face 200
Domain 2001 and second area 2002 are upwardly extended;Fourth region 2004 and of 9th passage 109 from the second flow control face 200
Five regions 2005 upwardly extend.
As shown in Figure 66 B and Figure 69 of accompanying drawing, according to the flow-controlled device of the 11st preferred embodiment of the invention one is further included
Individual shell 30, and the first flow control body 11 of the first flow control element 10 of the flow-controlled device further includes one from the top ends
111 end portions 112 for extending downwardly, the wherein shell 30 include an outer cover body 31, wherein the outer cover body 31 from this
The end portion 112 of the first flow control body 11 of one flow control element 10 outwardly and upwardly extends and encloses and is set as first accommodating chamber
310, so that the outer cover body 31 is formed with a lateral wall 312 of medial wall 311, and an opening up upper end
Opening 3101, wherein first accommodating chamber 310 is connected with the first lead-through opening 1071 of the 7th passage 107, wherein this
Two flow control elements 20 are suitable to the second flow control face 200 facing downward located at first accommodating chamber 310 and located at the first flow control element 10
The first flow control face 100.Preferably, the first passage 101 of the flow-controlled device and the second channel 102 are from the first flow control element 10
The first flow control face 100 extend downwardly and the first flow control body 11 through the first flow control element 10 end portion 112.
It should be noted that the shell 30 has one the 3rd opening, 303, one the 4th opening 304 and one the 7th opening
307, the wherein the 3rd opening 303 is connected with third channel 103, and the 4th opening 304 is connected with fourth lane 104, the
Seven openings 307 are connected with first accommodating chamber 310.In other words, the third channel 103 from the first flow control element 10
One flow control face 100 extend downwardly and from the end portion 112 of the first flow control body 11 of the first flow control element 10 stretch out with
It is connected with the 3rd opening 303;The fourth lane 104 is extended downwardly from the first flow control face 100 of the first flow control element 10
And stretch out to be connected with the 4th opening 304 from the end portion 112 of the first flow control body 11 of the first flow control element 10
It is logical.Preferably, the end portion 112 of the first flow control body 11 of the first flow control element 10 and the outer cover body 31 of the shell 30
Medial wall 311 is integrally formed.It is highly preferred that the opening 304 of the 3rd opening the 303, the 4th and the 7th opening 307 to be respectively arranged on this outer
The outer cover body 31 of shell 30.
It should be understood that when the flow-controlled device is in first working position, the second flow control sheet of the second flow control element 20
Body 21 is respectively by the phase of the first accommodating chamber 310 of the second channel 102 and the third channel 103 and the shell 30 of the flow-controlled device
Separate;When the flow-controlled device is in second working position, the second flow control body 21 of the second flow control element 20 respectively by this
One passage 101 and the fourth lane 104 are spaced with first accommodating chamber 310 of the shell 30 of the flow-controlled device;When the flow control
When device is in three working positions, the second flow control body 21 of the second flow control element 20 by the second channel 102 and is somebody's turn to do respectively
Fourth lane 104 is spaced with first accommodating chamber 310 of the shell 30 of the flow-controlled device.
As shown in Figure 66 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at the first flow control element 10
With the anti-wear component 40 between the second flow control element 20, the wherein anti-wear component 40 has a wear-resisting body 41, and wherein this is resistance to
Mill body 41 has a wearing face 410 for being suitable to be contacted with the second flow control face 200 of the second flow control body 21, wherein
The wearing face 410 relatively should through Wear-resistant Treatment, the second flow control body 21 such that it is able to reduce the second flow control element 20
The first flow control body 11 of the first flow control element 10 frictional force produced when rotating, so as to extend the use longevity of the flow-controlled device
Life.Further, the first flow control face 100 of the first flow control element 10 of the size and shape of the anti-wear component 40 and the flow-controlled device
Corresponding and the anti-wear component 40 wear-resisting body 41 is formed with 401, second interface of a first interface with being spaced from each other
402nd, the 3rd interface 403 and the 4th interface 404, the wherein first interface 401, second interface 402, the 3rd interface
403 and the 4th interface 404 shape and size respectively according to the first passage 101 of the flow-controlled device, second channel 102, third channel
103 and fourth lane 104 and design forming and the first passage 101 with the flow-controlled device, second channel 102, third channel 103 and
Fourth lane 104 is connected.Preferably, when the anti-wear component 40 located at the flow-controlled device the first flow control element 10 with this second
When between flow control element 20, there is no turning for the first flow control body 11 of the relative first flow control element 10 in the anti-wear component 40
It is dynamic.It is highly preferred that the anti-wear component 40 has a smoothed process to reduce the wearing face 410 of its degree of roughness.It is optimum
Selection of land, the first interface 401 of the anti-wear component 40, second interface 402, the 3rd interface 403 and the 4th interface 404 are upper and lower respectively
Through the wear-resisting body 41 of the anti-wear component 40, so that when the second flow control body 21 of the second flow control element 20 relatively should
When the first flow control body 11 of the first flow control element 10 is rotated, the first interface 401 of the anti-wear component 40, second interface 402,
3rd interface 403 and the 4th interface 404 are respectively selectively by located at the first flow control body 11 of the first flow control element 10
First passage 101, second channel 102, the third channel 103 and fourth lane 104 and the located at the second flow control element 20
7th passage 107 of two flow control bodies 21 is connected with the 9th passage 109.
As shown in Figure 66 B of accompanying drawing, the flow-controlled device further includes second flow control from the second flow control element 20
The upwardly extending driving element 60 of body 21 and one are from the upwardly extending potted component 70 of the driving element 60, the wherein driving
Element 60 is suitable to drive the relative first flow control element 10 of the second flow control body 21 of the second flow control element 20 of the flow-controlled device
First flow control body 11 rotates;Wherein the potted component 70 is suitable to the medial wall of the outer cover body 31 located at the shell 30
311 to seal first accommodating chamber 310, so as to prevent the water in first accommodating chamber 310 from the upper end of first accommodating chamber 310
Opening 3101 flows out.Preferably, the potted component 70 contacts with the driving element 60 and is suitable to and keeps the driving element 60
In position, so as to the second flow control body 21 for keeping the second flow control element 20 is in appropriate location.
As shown in Figure 66 E and Figure 66 F of accompanying drawing, the outer cover body 31 of the shell 30 of the flow-controlled device is from the first flow control element
The end portion 112 of 10 the first flow control body 11 is extended downwardly and enclosed and is set as second accommodating chamber 320, wherein second receiving
Room 320 is located at the lower section of the end portion 112 of the first flow control body 11 of the first flow control element 10.As shown in Figure 66 F of accompanying drawing,
Flow-controlled device of the present invention further includes a flow blocking element 80 located at second accommodating chamber 320, wherein the flow blocking element 80 certainly
The first flow control body 11 is extended downwardly, and wherein the flow blocking element 80 is located at the formation of outer cover body 31 one of the shell 30 and is somebody's turn to do
The first diversion chamber 801 between the outer cover body 31 of flow blocking element 80 and the shell 30, wherein the flow blocking element 80 enclose and are set as one
Individual second diversion chamber 802, wherein first diversion chamber 801 are connected with first passage 101, and second diversion chamber 802 with should
The second channel 102 of flow-controlled device is connected.In other words, first flow control of the first passage 102 from the first flow control element 10
Face 100 extends downwardly to be connected with first diversion chamber 801;The second channel 102 from the first flow control element 10 first
Flow control face 100 extends downwardly to be connected with second diversion chamber 802.
Figure 66 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30 for implementing flow-controlled device further has one first opening 301 and one second opening 302, wherein the of the flow-controlled device
One passage 101 is extended downwardly and from the first of the first flow control element 10 from the first flow control face 100 of the first flow control element 10
The end portion 112 of flow control body 11 stretches out to be connected with first opening 301;The second channel 102 is from first control
First flow control face 100 of fluid element 10 extend downwardly and the first flow control body 11 from the first flow control element 10 end portion
112 stretch out to be connected with second opening 302;First flow control of the third channel 103 from the first flow control element 10
Face 100 extend downwardly and from the end portion 112 of the first flow control body 11 of the first flow control element 10 stretch out with this
Three openings 303 are connected;Extend downwardly simultaneously certainly from the first flow control face 100 of the first flow control element 10 with the fourth lane 104
The end portion 112 of the first flow control body 11 of the first flow control element 10 stretches out to be connected with the 4th opening 304;Should
First accommodating chamber 310 is connected with the 7th opening 307.Preferably, the first flow control body 11 of the first flow control element 10
End portion 112 is integrally formed with the medial wall 311 of the outer cover body 31 of the shell 30.It is highly preferred that first opening 301, the
The opening 304 of the 302, the 3rd opening of two openings the 303, the 4th and the 7th opening 307 are respectively arranged on the outer cover body 31 of the shell 30.
It should be noted that when the shell 30 of the flow-controlled device has first opening 301 and second opening 302, and should
The first passage 101 of flow-controlled device is connected with first opening 301;The second channel 102 is connected with second opening 302
When, the flow-controlled device will not need the flow blocking element 80 of the flow-controlled device of present pre-ferred embodiments.
Figure 69 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few water treatment facilities of flow-controlled device 1 and at least one, such as unit for treating water 90, the wherein unit for treating water 90 are applied to and treat
Process water to be processed, wherein the unit for treating water 90 is connected with the flow-controlled device 1.
As shown in Figure 69 of accompanying drawing, include at a water according to the unit for treating water 90 of the 11st preferred embodiment of the invention
Reason element 91, wherein the water process element 91 have first open communication 9101 and second open communication 9102, its
In be suitable to the first open communication 9101 of the water process element 91 from the unit for treating water 90 and flow from the accessing pending water of flow-controlled device
Enter the water process element 91 and water after being processed Jing after the water process element 91 is processed, wherein water is suitable to from the water after the process
Second open communication 9102 for the treatment of element 91 flows out.Alternatively, the accessing pending water from flow-controlled device also can be from the water process list
Second open communication 9102 of the water process element 91 of unit 90 flows into the water process element 91, and the Jing water process elements 91 are processed
After processed after water, and the first open communication 9101 from the water process element 91 flows out.
As shown in Figure 69 of accompanying drawing, according to the water process element of the unit for treating water 90 of the 11st preferred embodiment of the invention
91 include a water process body 911 and a liquid collecting element 912, wherein first open communication of the water process element 91
9101 and second open communication 9102 be separated by turn up the soil located at the water process body 911 respectively, the wherein liquid collecting element 912 was located at should
Extend in water process body 911 and to the direction of the second open communication 9102, and be connected with second open communication 9102, its
Middle accessing pending water is suitable to flow into the water process element 91 by first open communication 9101 of the water process element 91, and in Jing
Water after being processed after the process of water process body 911 for crossing the water process element 91, wherein water is suitable to flow to the collection after the process
Liquid element 912 and flow out from the liquid collecting element 912.In other words, accessing pending water is suitable to from the first of the water process element 91 connect
Open up that mouth 9101 flows into the water process element 91 and the water process body 911 of the Jing water process elements 91 is processed, to be processed
Water afterwards, current direction liquid collecting element 912 and Jing after the liquid collecting element 912 is concentrated wherein after the process, Jing second open communications
9102 flow out.Preferably, the liquid collecting element 912 has a tubular structure.It is highly preferred that making the water of the unit for treating water 90
Treatment element 91 includes in the material of water process body 911 containing at least one material for water treatment, such as resin, activated carbon or
Other similar material for water treatment or its combination.
It should be noted that the first open communication 9101 of the water process element 91 of the water treatment system is suitable to and the flow control
The first passage 101 of device is connected, and the second open communication 9102 of the water process element 91 be suitable to the flow-controlled device second
Passage 102 is connected.
As shown in Figure 69 of accompanying drawing, further, the first open communication of the water process element 91 of the water treatment system
9101 are connected with first diversion chamber 801, and the second open communication 9102 and second diversion chamber of the water process element 91
802 are connected.
As shown in Figure 69 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1 of water treatment system is in the first working position, the 7th opening of the shell 30 that accessing pending water passes through the flow-controlled device 1
First lead-through opening 1071 of 307 the first accommodating chambers 310 for flowing into the shell 30 and the 7th passage 107 for passing through the flow-controlled device 1
Flow into the 7th passage 107, subsequent accessing pending water flows into the first passage 101 of the flow-controlled device 1, and the first of the Jing flow-controlled devices 1
Diversion chamber 801 flows to the first open communication 9101 of the water process element 91, and the first open communications of Jing 9101 are flowed at the water
Manage element 91 and the water Jing after the water process body 911 of the water process element 91 is processed, water Jing should wherein after the process
Liquid collecting element 912 flows to the second open communication 9102 of the water process element 91, and then Jing second open communications 9102 are flowed to
Second diversion chamber 802 of the flow-controlled device 1, and the second diversion chamber of Jing 802 flows into the second channel 102 of the flow-controlled device 1, then Jing with after
The guiding of 9th passage 109 of the flow-controlled device 1 flows into the third channel 103 of the flow-controlled device 1, and the 3rd opening of the Jing shells 30
303 flow out so that user is used;Wherein when the flow-controlled device 1 of the water treatment system is in the second working position, accessing pending water is led to
The 7th opening 307 for crossing the shell 30 of the flow-controlled device 1 flows into the first accommodating chamber 310 of the shell 30 and by the flow-controlled device 1
First lead-through opening 1071 of the 7th passage 107 flows into the 7th passage 107, and subsequent accessing pending water separately flows into the flow-controlled device 1
Second channel 102 and third channel 103, the water for flowing into the third channel 103 of the flow-controlled device 1 flows through the 3rd of the shell 30 and opens
Mouthfuls 303 flow out so that user is used, wherein the accessing pending water for flowing into second channel 102 is suitable to the second of the Jing flow-controlled devices 1
Diversion chamber 802 flows to the water process element 91, and second open communication 9102 of the Jing water process elements 91 flows into liquid collecting unit
Part 912, then flows into the water process element 91 from the liquid collecting element 912, and the water process of the back flush water process element 91
Body 911, the first open communication 9101 of the waste liquid Jing of the generation water process elements 91 flows out after flushing, subsequently the Jing flow controls
First diversion chamber 801 of device 1 flows into the first passage 101 of the flow-controlled device 1, and the guiding stream of the 9th passage 109 of the Jing flow-controlled devices 1
The fourth lane 104 of the Jing flow-controlled devices 1, then the 4th opening 304 of the Jing shells 30 flow out;When the flow control of the water treatment system
When device 1 is in three working positions, the 7th opening 307 of the shell 30 that accessing pending water passes through the flow-controlled device 1 flows into the shell 30
First accommodating chamber 310, and first lead-through opening 1071 of the 7th passage 107 for passing through the flow-controlled device 1 flows into the 7th passage
107, subsequent accessing pending water separately flows into the first passage 101 and third channel 103 of the flow-controlled device 1, flows into the of the flow-controlled device 1
The water of triple channel 103 flows through the 3rd opening 303 of the shell 30 and flows out so that user is used, and flows into the first of the flow-controlled device 1
First diversion chamber 801 of accessing pending water Jing of passage 101 flow-controlled device 1 flows into the first open communication of the water process element 91
9101, and the positive water process body 911 for rinsing the water process element 91, the waste liquid Jing of generation liquid collecting elements 912 after flushing
Flow to the second open communication 9102 of the water process element 91, and Jing second open communications 9102 flow into the of the flow-controlled device 1
Two diversion chamber 802, then Jing second diversion chamber 802 flows into the second channel 102 of the flow-controlled device 1, then the of the Jing flow-controlled devices 1
The fourth lane 104 of the pilot flow direction of nine passage 109 flow-controlled device 1, then the 4th opening 304 of the Jing shells 30 flow out.
It is understood that when the shell 30 of flow-controlled device of the present invention further has the first passage of and the flow-controlled device
When 101 the first openings 301 being connected and second opening 302 being connected with the second channel 102 of the flow-controlled device, the water
First open communication 9101 of the water process element 91 of the unit for treating water 90 of processing system is suitable to be connected with first opening 301
It is logical, and the second open communication 9102 of the water process element 91 of the unit for treating water 90 of the water treatment system is suitable to second be opened with this
Mouth 302 is connected.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
3rd opening 303 of the shell 30 of stream device flows out, so that user is used;When user adjust flow-controlled device of the present invention be in this
During two working positions, water treatment system of the present invention be suitable to adjust the accessing pending water water process element 91 of the water treatment system is carried out
Back flush, and the waste water that obtains of back flush is suitable to the 4th opening stream of the shell 30 of the flow-controlled device from the water treatment system
Go out, while the 3rd opening 303 of the shell 30 of the accessing pending water Jing flow-controlled device flows out;When user is adjusted at flow-controlled device of the present invention
In three working positions, water treatment system of the present invention is suitable to adjust water process element of the accessing pending water to the water treatment system
91 carry out positive flushing, and positive rinse the waste water for obtaining is suitable to the shell 30 of the flow-controlled device from the water treatment system the 4th
Opening 304 flows out, while the 3rd opening 303 of the shell 30 of the accessing pending water Jing flow-controlled device flows out.That is, working as user
When regulation flow-controlled device of the present invention is in the second working position or three working positions, water treatment system of the present invention is suitable to adjust pending
Water flows out from the 3rd opening 303 of the shell 30 of the flow-controlled device.Therefore, when the water treatment system of flow-controlled device of the present invention is in
During one working position, the water treatment system can be processed accessing pending water and be provided water after process for user, in the second work
Position or the 3rd working position, the water treatment system can be to use while reverse or positive flushing is carried out to the water process element
Person provides accessing pending water, and the lasting water supply function is persistently used water needs, especially can not be stopped at some suitable for meeting user
Using for the occasion of water needs.In addition, in flow-controlled device of the present invention, the first passage 101 that flows into for accessing pending water, for locating
The second channel 102E and big as far as possible for fourth lane 104E of blowdown that water flows out after reason, the of flow-controlled device of the present invention
Seven passages 107 are designed according to the shapes and sizes of the first passage 101, and the footpath flow cross-sectional area of the first passage 101 is more than
The second channel 102 of the flow-controlled device, third channel 103 and fourth lane 104, pass through in the unit interval first passage to increase
101 discharge.Especially, when the flow-controlled device is in the first working position, the 7th passage 107 of the flow-controlled device first leads to this
Road 101 is cooperatively connected, to increase in the unit interval by the discharge of the first passage 101.
With reference to shown in Figure 70 A to Figure 73 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 12nd preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10A and one
Dynamicly located at the second flow control element 20A of first flow control element 10A, wherein the first flow control element 10A includes one first
Flow control body 11A, the first flow control body 11A include top ends 111A, and wherein top ends 111A form one first
Flow control face 100A;Second flow control element 20A includes that a second flow control body 21A, the second flow control body 21A have one
, from the upwardly extending high end 212A of bottom 211A, bottom 211A forms one second control for bottom 211A and one
Stream interface 200A;The wherein first flow control face 100A of first flow control element 10A be suitable to second flow control element 20A this second
Flow control face 200A contacts.
As shown in Figure 70 B to Figure 70 D of accompanying drawing, further, as shown in Figure 71 A to Figure 71 D of accompanying drawing, the flow-controlled device
Top ends 111A of the first flow control element 10A include a first central part 1111A, first edge portion 1112A and one
The first pars intermedia 1113A between the first central part 1111A and first edge portion 1112A is extended in, the second flow control unit
The bottom 211A of part 20A include the second central part 2111A, a second edge portion 2112A and one extend in this
The second pars intermedia 2113A between two central part 2111A and second edge portion 2112A, the wherein flow-controlled device have one first
Passage 101A, second channel 102A, third channel 103A, fourth lane 104A, Five-channel 105A,
One clematis stem road 106A, the 7th passage 107A, a 8th passage 108A and a 9th passage 109A, wherein this
One passage 101A, second channel 102A, third channel 103A, fourth lane 104A, Five-channel 105A and clematis stem road 106A
It is respectively arranged on the first flow control body 11A of first flow control element 10A;7th passage 107A, the 8th passage 108A and the 9th
Passage 109A is respectively arranged on second flow control body 21A, wherein first passage 101A, second channel 102A, third channel
103A, fourth lane 104A, Five-channel 105A and clematis stem road 106A are respectively from first flow control of first flow control element 10A
The first flow control face 100A of body 11A is extended downwardly;Wherein the 7th passage 107A is from the bottom of second flow control body 21A
The second flow control face 200A of 211A upwardly extend and bottom 211A from second flow control body 21A the second pars intermedia
2113A stretches out and forms a first lead-through opening 1071A being connected with space outerpace all the time;8th passage 108A
Upwardly extend from the second flow control face 200A of the bottom 211A of second flow control body 21A and from second flow control body 21A
Bottom 211A the second pars intermedia 2113A stretch out and formed one be connected with space outerpace all the time second conducting
Opening 1081A;9th passage 109A prolongs upwards from the second flow control face 200A of the bottom 211A of second flow control body 21A
Extend the high end 212A of the second flow control body 21A of second flow control element 20A.In other words, the 7th passage 107A
The second lead-through opening 1081A of the first lead-through opening 1071A and the 8th passage 108A can respectively keep the 7th passage 107A
With the 8th passage 108A all the time with space outerpace, be especially connected with the space outerpace of flow-controlled device.Preferably, the flow-controlled device
First passage 101A, second channel 102A, third channel 103A, fourth lane 104A, Five-channel 105A and clematis stem road
First pars intermedia 1113As of the 106A respectively from top ends 111A of first flow control body 11A extends out to the top ends
First edge portion 1112A of 111A;Second flow controls of the 7th passage 107A of the flow-controlled device from second flow control element 20A
The second pars intermedia 2113A of the bottom 211A of body 21A stretches out;8th passage 108A of the flow-controlled device from this second
The second pars intermedia 2113A of the bottom 211A of the second flow control body 21A of flow control element 20A stretches out;The flow-controlled device
Second pars intermedia 2113As of the 9th passage 109A from the bottom 211A of the second flow control body 21A of second flow control element 20A
Extend out to the second edge portion 2112A of bottom 211A.
As shown in Figure 72 A to Figure 72 D of accompanying drawing, the second flow control element 20A can be rotated relative to the first flow control element 10A
So that the flow-controlled device has first working position, the 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 107A of the flow-controlled device is connected with first passage 101A,
8th passage 108A of the flow-controlled device is connected with Five-channel 105A, and the 9th passage 109A of the flow-controlled device is logical with second respectively
Road 102A is connected with third channel 103A;When flow-controlled device be in the second working position when, the 7th passage 107A of the flow-controlled device with
Clematis stem road 106A is connected, and the 8th passage 108A of the flow-controlled device is connected with second channel 102A, and the 9th of the flow-controlled device the
Passage 109A is connected respectively with first passage 101A with fourth lane 104A;When flow-controlled device is in three working positions, the control
7th passage 107A of stream device is connected with Five-channel 105A, the 8th passage 108A and the first passage 101A phases of the flow-controlled device
Connection, the 9th passage 109A of the flow-controlled device is connected respectively with fourth lane 104A and clematis stem road 106A;At flow-controlled device
When four working positions, the 7th passage 107A of the flow-controlled device is connected with second channel 102A, the 8th passage of the flow-controlled device
108A is connected with clematis stem road 106A, the 9th passage 109A of the flow-controlled device respectively with third channel 103A and Five-channel
105A is connected.
Preferably, when flow-controlled device is in the first working position, fourth lane 104A and clematis stem road 106A of the flow-controlled device
Blocked by the second flow control body 21A of the second flow control element 20A respectively, the second flow control body 21A of second flow control element 20A
Respectively by second channel 102A and third channel 103A and the upper outer spaced apart of the flow-controlled device;At flow-controlled device
When the second working position, the third channel 103A and Five-channel 105A of the flow-controlled device is respectively by the of the second flow control element 20A
Two flow control body 21A block, and the second flow control body 21A of second flow control element 20A by first passage 101A and is somebody's turn to do respectively
The upper outer spaced apart of fourth lane 104A and the flow-controlled device;When flow-controlled device is in three working positions, the flow-controlled device
Second channel 102A and third channel 103A respectively by the second flow control element 20A the second flow control body 21A block, this second
The second flow control body 21A of flow control element 20A is respectively by the fourth lane 104
-+A and clematis stem road the 106A and the upper outer spaced apart with the flow-controlled device;With when flow-controlled device is in the
During four working positions, the first passage 101A of the flow-controlled device and fourth lane 104A are controlled respectively by the second of the second flow control element 20A
Stream body 21A obstructions, the second flow control body 21A of second flow control element 20A is respectively by third channel 103A and the 5th
Passage 105A and the upper outer spaced apart with the flow-controlled device.
It should be noted that the first passage 101A of the flow-controlled device, second channel 102A, third channel 103A, fourth lane
104A, Five-channel 105A and clematis stem road 106A be spaced from each other respectively located at the first flow control element the first flow control body
11A;7th passage 107A, the 8th passage 108A and the 9th passage 109A are located at second flow control unit with being spaced from each other respectively
The second flow control body 21A of part 20A.
As shown in Figure 71 A to Figure 71 B of accompanying drawing, the first flow control face 100A of the first flow control element 10A of the flow-controlled device and
The second flow control face 200A of the second flow control element 20A is circle, the first passage 101A of the flow-controlled device, fourth lane 104A,
Clematis stem road 106A, Five-channel 105A, third channel 103A and second channel 102A are deasil arranged in this with this order
The first flow control body 11A of the first flow control element 10A;7th passage 107A, the 8th passage 108A and the 9th of the flow-controlled device leads to
Road 109A is deasil arranged in the second flow control body 21A of second flow control element 20A with this order.Alternatively, the flow control
First passage 101A, fourth lane 104A, clematis stem road 106A, Five-channel 105A, third channel 103A and second that device sets
Passage 102A can also this order be widdershins arranged in the first flow control body 11A of first flow control element 10A;The control simultaneously
7th passage 107A, the 8th passage 108A and the 9th passage 109A of stream device is widdershins arranged in second flow control with this order
The second flow control body 21A of element 20A.
Preferably, first passage 101A, second channel 102A, third channel 103A, fourth lane 104A, Five-channel
105A and clematis stem road 106A are radially located at the first flow control face 100A of first flow control element 10A, and the 7th passage
107A, the 8th passage 108A and the 9th passage 109A are radially located at the second flow control face 200A of second flow control element 20A.
It is highly preferred that first passage 101A is extended downwardly from the first flow control face 100A of first flow control element 10A;Should
Second channel 102A is extended downwardly from the first flow control face 100A of first flow control element 10A;Third channel 103A from this
The first flow control face 100A of one flow control element 10A is extended downwardly and stretched out;Fourth lane 104A is from the first flow control unit
The first flow control face 100A of part 10A is extended downwardly and stretched out;The Five-channel 105A from first flow control element 10A
One flow control face 100A is extended downwardly;It is downward from the first flow control face 100A of first flow control element 10A with the clematis stem road 106A
Extend.Further, the shapes and sizes of the second flow control face 200A of second flow control element 20A are according to the first flow control element
The first flow control face 100A designs of 10A so that the second flow control face 200A of second flow control element 20A be suitable to located at this
The first flow control face 100A of one flow control element 10A, and when the second flow control element 20A is rotated relative to the first flow control element 10A,
Adjust first passage 101A, second channel 102A, the threeway of the first flow control body 11A located at first flow control element 10A
Road 103A, fourth lane 104A, Five-channel 105A and clematis stem road 106A respectively with the located at second flow control element 20A
7th passage 107A, the connection of the 8th passage 108A and the 9th passage 109A of two flow control body 21A, to control current at this
Flow in the different passages of bright flow-controlled device.
As shown in accompanying drawing 71C to Figure 71 D, the first flow control face 100A of the first flow control element 10A of the flow-controlled device has one
Core 1000A shown in individual figure chain lines, wherein core 1000A located at first flow control element 10A the
Second control of the first central part 1111A of top ends 111A of one flow control body 11A, the second flow control element 20A of the flow-controlled device
Stream interface 200A has the central area 2000A shown in a figure chain lines, and wherein central area 2000A is located at second control
First control of the second central part 2111A of the bottom 211A of the second flow control body 21A of fluid element 20A, the wherein flow-controlled device
The core 1000A of the first flow control face 100A of fluid element 10A has first nodal point 1110A, and second flow control
The central area 2000A of the second flow control face 200A of element 20A has a second central point 2110A, wherein first flow control
Part outside the core 1000A of face 100A can be by six the first bluelines through first nodal point 1110A
10002A be divided into clockwise a Part I 1001A, Part II 1002A, Part III 1003A, one
Four part 1004A, a Part V 1005A and a Part VI 1006A;The central area of second flow control face 200A
Part outside 2000A is divided into clockwise one by six article of second blueline 20002A through second central point 2110A
One region 2001A, second area 2002A, the 3rd region 2003A, the 4th region 2004A, the 5th area
Domain 2005A and a 6th region 2006A;Wherein every adjacent two of the first flow control face 100A of first flow control element 10A
Central angle alpha 1A that first blueline 10002A is formed is equal in magnitude;The second flow control face 200A's of second flow control element 20A is every
Central angle alpha 2A of adjacent two the second blueline 20002A formation is equal in magnitude, and wherein first passage 101A is from the first flow control
The Part I 1001A of face 100A is extended downwardly;Second channel 102A is from the first flow control face of first flow control element 10A
The Part VI 1006A of 100A is extended downwardly;Third channel 103A is downward from the Part V 1005A of the first flow control face 100A
Extend;Fourth lane 104A is extended downwardly from the Part II 1002A of the first flow control face 100A;The Five-channel 105A is from
The Part IV 1004A of one flow control face 100A is extended downwardly;Part III of the clematis stem road 106A from the first flow control face 100A
1003A is extended downwardly;7th passage 107A is upwardly extended from the first area 2001A of second flow control face 200A;8th
Passage 108A is upwardly extended from the 4th region 2004A of second flow control face 200A;With the 9th passage 109A from second control
The 5th region 2005A of stream interface 200A and the 6th region 2006A are upwardly extended.
As shown in Figure 70 B and Figure 73 of accompanying drawing, according to the flow-controlled device of the 12nd preferred embodiment of the invention one is further included
Individual shell 30A, and the first flow control body 11A of first flow control element 10A of the flow-controlled device further includes one from the top
End portion 112A that end 111A is extended downwardly, wherein shell 30A include an outer cover body 31A, the wherein outer cover body
31A outwardly and upwardly extends and encloses and is set as one from end portion 112A of the first flow control body 11A of first flow control element 10A
First accommodating chamber 310A, so that outer cover body 31A is formed with a medial wall 311A, a lateral wall 312A and one
Opening up upper end open 3101A, wherein first accommodating chamber 310A are opened respectively with first conducting of the 7th passage 107A
Mouthful 1071A is connected with the second lead-through opening 1081A of the 8th passage 108A, and wherein second flow control element 20A is suitable to the
Two flow control face 200A are facing downward located at the first accommodating chamber 310A and located at the first flow control face of first flow control element 10A
100A。
It should be noted that shell 30A has one the 3rd opening 303A, the 4th opening 304A and the 7th
Opening 307A, the wherein the 3rd opening 303A is connected with third channel 103A, the 4th opening 304A and fourth lane 104A
It is connected, the 7th opening 307A is connected with first accommodating chamber 310A.In other words, third channel 103A is from first control
The first flow control face 100A of fluid element 10A extend downwardly and the first flow control body 11A from first flow control element 10A low side
Portion 112A stretches out to be connected with the 3rd opening 303A;Fourth lane 104A from first flow control element 10A
One flow control face 100A is extended downwardly and from end portion 112A of the first flow control body 11A of first flow control element 10A to extension
Stretch to be connected with the 4th opening 304A.Preferably, the end portion of the first flow control body 11A of first flow control element 10A
112A is integrally formed with the medial wall 311A of the outer cover body 31A of shell 30A.It is highly preferred that the 3rd opening 303A, the 4th
The opening 307A of opening 304A and the 7th are respectively arranged on the outer cover body 31A of shell 30A.
It should be understood that when the flow-controlled device is in first working position, second flow control of second flow control element 20A
Body 21A is respectively by first receiving of the shell 30A of second channel 102A and third channel 103A and the flow-controlled device
Room 310A is spaced;When the flow-controlled device is in second working position, the second flow control body 21A of second flow control element 20A
Respectively by the first accommodating chamber 310A phases of first passage 101A and fourth lane 104A and the shell 30A of the flow-controlled device
Separate;When the flow-controlled device is in three working positions, the second flow control body 21A of second flow control element 20A respectively should
Fourth lane 104A and the clematis stem road 106A and it is spaced with first accommodating chamber 310A of the shell 30A of the flow-controlled device;
When the flow-controlled device is in four working positions, the second flow control body 21A of second flow control element 20A is respectively by the threeway
The road 103A and Five-channel 105A and it is spaced with first accommodating chamber 310A of the shell 30A of the flow-controlled device.
As shown in Figure 70 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10A
With the anti-wear component 40A between the second flow control element 20A, wherein anti-wear component 40A have a wear-resisting body 41A, wherein
The wear-resisting body 41A has a wearing face for being suitable to be contacted with the second flow control face 200A of second flow control body 21A
410A, wherein wearing face 410A through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20A
Body 21A relative to the first flow control body 11A of first flow control element 10A rotate when produced frictional force, so as to extend the control
The service life of stream device.As shown in Figure 70 B of accompanying drawing, further, size and shape and the flow-controlled device of anti-wear component 40A
The first flow control element 10A the first flow control face 100A it is corresponding and wear-resisting body 41A of anti-wear component 40A is spaced from each other ground
Be formed with a first interface 401A, second interface 402A, the 3rd interface 403A, the 4th interface 404A, one
Individual 5th interface 105A and a 6th interface 106A, wherein first interface 401A, second interface 402A, the 3rd interface
403A, the 4th interface 404A, the shape and size of the 5th interface 105A and the 6th interface 106A are respectively with the first of the flow-controlled device
Passage 101A, second channel 102A, third channel 103A, fourth lane 104A, Five-channel 105A and clematis stem road 106A and
Design forming and the first passage 101A with the flow-controlled device, second channel 102A, third channel 103A and fourth lane 104A,
Five-channel 105A and clematis stem road 106A are connected.Preferably, when anti-wear component 40A is located at first control of the flow-controlled device
When between fluid element 10A and second flow control element 20A, anti-wear component 40A does not occur relative first flow control element 10A's
The rotation of the first flow control body 11A.It is highly preferred that anti-wear component 40A has a smoothed process to reduce its coarse journey
The wearing face 410A of degree.Most preferably, first interface 401A, second interface 402A, the 3rd interface of anti-wear component 40A
403A, the 4th interface 404A, the 5th interface 105A and the 6th interface 106A are respectively up and down through wear-resisting of anti-wear component 40A
Body 41A, so that when the first of relative first flow control element 10A of the second flow control body 21A of second flow control element 20A
When flow control body 11A is rotated, the first interface 401A of anti-wear component 40A, second interface 402A, the 3rd interface 403A, the
Four interface 404A, the 5th interface 105A and the 6th interface 106A can respectively selectively by located at first flow control element 10A's
The first passage 101A of the first flow control body 11A, second channel 102A, third channel 103A, fourth lane 104A, the 5th are led to
The 7th passage 107A of road 105A and clematis stem road 106A and the second flow control body 21A located at second flow control element 20A, the
Eight passage 108A and the 9th passage 109A are connected.
As shown in Figure 70 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20A
Upwardly extending driving elements 60A of body 21A and one wherein should from the upwardly extending potted component 70A of driving element 60A
Driving element 60A is suitable to the second flow control body 21A of the second flow control element 20A for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11A of part 10A rotates;Wherein potted component 70A is suitable to the medial wall 311A located at shell 30A
To seal first accommodating chamber 310A, so as to prevent the fluid in first accommodating chamber 310A from the upper of first accommodating chamber 310A
End opening 3101A flows out.Preferably, potted component 70A contacts with driving element 60A and is suitable to the driving element
60A is held in place by, so as to the second flow control body 21A for keeping second flow control element 20A is in appropriate location.
As shown in Figure 70 E to Figure 70 F of accompanying drawing, the outer cover body 31A of the shell 30A of the flow-controlled device is from the first flow control unit
End portion 112A of the first flow control body 11A of part 10A is extended downwardly and enclosed and is set as a second accommodating chamber 320A, wherein this
Two accommodating chamber 320A are located at the lower section of end portion 112A of the first flow control body 11A of first flow control element 10A.As accompanying drawing it
Shown in Figure 70 F, flow-controlled device of the present invention further includes a flow blocking element 80A located at second accommodating chamber 320A, wherein should
Flow blocking element 80A is extended downwardly from first flow control body 11A, the medial wall of the wherein flow blocking element 80A and shell 30A
311A forms first be located between the medial wall 311A of the outer cover body 31A of the flow blocking element 80A and shell 30A and leads
Flow chamber 801A, flow blocking element 80A encloses and is set as a second diversion chamber 802A, the wherein first passage 101A of the flow-controlled device and should
Five-channel 105A is extended downwardly from the first flow control face 100A of first flow control element 10A, and respectively with first diversion chamber
801A is connected;The second channel 102A and the clematis stem road 106A of the flow-controlled device is controlled from the first of first flow control element 10A
Stream interface 100A is extended downwardly and is connected with second diversion chamber 802A respectively.Preferably, the first passage 101A of the flow-controlled device
Extend downwardly from the first flow control face 100A of first flow control element 10A with the Five-channel 105A and through the first flow control unit
End portion 112A of the first flow control body 11A of part 10A, to be connected with first diversion chamber 801A respectively;The flow-controlled device
Second channel 102A and the clematis stem road 106A are extended downwardly and run through from the first flow control face 100A of first flow control element 10A
End portion 112A of the first flow control body 11A of first flow control element 10A, to be connected with second diversion chamber 802A respectively
It is logical.
Figure 70 G and Figure 70 H of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In, the flow-controlled device further includes first conductive channel 1015A1 and second conductive channel 1026A1, wherein this
One conductive channel 1015A1 and second conductive channel 1026A1 are respectively arranged on the first flow control sheet of first flow control element 10A1
Body 11A1;Wherein first conductive channel 1015A1 from first passage 101A1 extend to the Five-channel 105A1 and by this
One passage 101A1 is connected with the Five-channel 105A1;Second conductive channel 1026A1 extends from second channel 102A1
It is connected with clematis stem road 106A1 to the clematis stem road 106A1 and by second channel 102A1, wherein first conducting is logical
Road 1015A1 second channel 102A1, clematis stem road 106A1, third channel 103A1, fourth lanes respectively with the flow-controlled device
104A1 and second conductive channel 1026A1 are separated by the first flow control body 11A1 turned up the soil located at first flow control element 10A1;
Second conductive channel 1026A1 respectively with first passage 101A1, Five-channel 105A1, the third channel 103A1 of the flow-controlled device
It is separated by the first flow control body 11A1 turned up the soil located at first flow control element 10A1 respectively with fourth lane 104A1;This first lead to
Road 101A1 and Five-channel 105A1 be separated by with second channel 102A1 and clematis stem road 106A1 respectively turn up the soil located at this first
The first flow control body 11A1 of flow control element 10A1;Third channel 103A1 and fourth lane 104A1 be separated by turn up the soil located at this
The first flow control body 11A1 of one flow control element 10A1;It is logical with the 7th passage 107A1, the 8th passage 108A1 and the 9th
Road 109A1 be spaced from each other located at second flow control element 20A1 the second flow control body 21A1;Preferably, the of the flow-controlled device
One conductive channel 1015A1 and the second conductive channel 1026A1 are respectively arranged on the first flow control body of first flow control element 10A1
The inside of 11A1, so that first conductive channel 1015A1 and the second conductive channel 1026A1 are hidden in respectively first control
In the first flow control body 11A1 of fluid element 10A1, in case fluid stopping Jing first conductive channels 1015A1 and/or the second conducting are logical
The current of road 1026A1 flow to the of the flow-controlled device by first conductive channel 1015A1 and/or the second conductive channel 1026A1
The space outerpace of one flow control element 11A1.Shown in Figure 70 G of accompanying drawing, further, the optional shell 30A1 for implementing flow-controlled device
With one first opening 301A1 and one second opening 302A1, the wherein first passage 101A1 of the flow-controlled device from this first
The first flow control face 100A1 of flow control element 10A1 is extended downwardly and from the first flow control body 11A1 of first flow control element 10A1
End portion 112A1 stretch out with this first opening 301A1 be connected;Second channel 102A1 is from the first flow control unit
The first flow control face 100A1 of part 10A1 extend downwardly and the first flow control body 11A1 from first flow control element 10A1 low side
Portion 112A1 stretches out to be connected with second opening 302A1;Third channel 103A1 is from first flow control element 10A1
The first flow control face 100A1 extend downwardly and the first flow control body 11A1 from first flow control element 10A1 end portion
112A1 stretches out to be connected with the 3rd opening 303A1;With fourth lane 104A1 from first flow control element 10A1
The first flow control face 100A1 extend downwardly and the first flow control body 11A1 from first flow control element 10A1 end portion
112A1 stretches out to be connected with the 4th opening 304A1;The first accommodating chamber 310A1 is connected with the 7th opening 307A1
It is logical.Preferably, the shell of end portion 112A1 of the first flow control body 11A1 of first flow control element 10A1 and shell 30A1
The medial wall 311A1 of body 31A1 is integrally formed.It is highly preferred that first opening 301A1, the second opening 302A1, the 3rd opening
303A1, the 4th opening 304A1 and the 7th opening 307A1 are respectively arranged on the outer cover body 31A1 of shell 30A1.
It should be noted that when this it is optional implement flow-controlled device shell 30A1 have this first opening 301A1 and this second
Be open 302A1, and the first passage 101A1 of the flow-controlled device is connected with first opening 301A1;Second channel 102A1 with
When second opening 302A1 is connected, the flow-controlled device will not need the flow blocking element of the flow-controlled device of present pre-ferred embodiments
80A。
Figure 70 I to Figure 70 K of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional flow-controlled device of implementing further include a flow blocking element 80A2 located at second accommodating chamber 320A2, wherein should be every
Fluid element 80A2 is extended downwardly from first flow control body 11A2, the medial wall of the wherein flow blocking element 80A2 and shell 30A2
311A2 forms one and is located between the medial wall 311A2 of the outer cover body 31A2 of the flow blocking element 80A2 and shell 30A2
First diversion chamber 801A2, flow blocking element 80A2 enclose and are set as a second diversion chamber 802A2, and wherein the first of the flow-controlled device is led to
Road 101A2 is extended downwardly from the first flow control face 100A2 of first flow control element 10A, and is connected with first diversion chamber 801A2
It is logical;The second channel 102A2 of the flow-controlled device extend downwardly from the first flow control face 100A2 of first flow control element 10A2 and with this
Second diversion chamber 802A2 is connected.Preferably, the first passage 101A2 of the flow-controlled device from first flow control element 10A2
One flow control face 100A2 extend downwardly and the first flow control body 11A2 through first flow control element 10A2 end portion 112A2,
To be connected with first diversion chamber 801A2;The second channel 102A2 of the flow-controlled device from first flow control element 10A2 first
Flow control face 100A2 extend downwardly and the first flow control body 11A2 through first flow control element 10A2 end portion 112A2, with
It is connected with second diversion chamber 802A2.In this embodiment, the shell 30A2 of the flow-controlled device is no longer provided with the first opening
The opening 302A of 301A and second.
Figure 70 L to Figure 70 M of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional shell 30A3 for implementing flow-controlled device have one first opening 301A3, one second opening 302A3, one the 3rd
Opening 303A3, a 4th opening 304A3, wherein 305A3 and one the 6th opening 306A3 of the 5th opening, the flow-controlled device
First passage 101A3 extend downwardly from the first flow control face 100A3 of first flow control element 10A3 and from first flow control unit
End portion 112A3 of the first flow control body 11A3 of part 10A3 stretches out to be connected with first opening 301A3;This second
Passage 102A3 is extended downwardly and from first flow control element 10A3 from the first flow control face 100A3 of first flow control element 10A3
The first flow control body 11A3 end portion 112A3 stretch out with this second opening 302A3 be connected;The third channel
103A3 is extended downwardly and from the of first flow control element 10A3 from the first flow control face 100A3 of first flow control element 10A3
End portion 112A3 of one flow control body 11A3 stretches out to be connected with the 3rd opening 303A3;Fourth lane 104A3
Extend downwardly and from first flow control of first flow control element 10A3 from the first flow control face 100A3 of first flow control element 10A3
End portion 112A3 of body 11A3 stretches out to be connected with the 4th opening 304A3;The Five-channel 105A3 from this
The first flow control face 100A3 of one flow control element 10A3 is extended downwardly and from the first flow control body of first flow control element 10A3
End portion 112A3 of 11A3 stretches out to be connected with the 5th opening 305A3;The clematis stem road 106A3 is from first control
The first flow control face 100A3 of fluid element 10A3 is extended downwardly and from the first flow control body 11A3's of first flow control element 10A3
End portion 112A3 stretches out to be connected with the 6th opening 306A3;The first accommodating chamber 310A3 and the 7th opening
307A3 is connected.Preferably, this first opening 301A3, second opening 302A3, the 3rd opening 303A3, the 4th opening 304A3,
5th opening 305A3, the 6th opening 306A3 and the 7th opening 307A3 are respectively arranged on the outer cover body 31A3 of shell 30A3.
Figure 73 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1A and at least one water treatment facilities, such as unit for treating water 90A, wherein unit for treating water 90A is applied to
Accessing pending water is processed, wherein unit for treating water 90A is connected with flow-controlled device 1A.
As shown in Figure 73 of accompanying drawing, according to the unit for treating water 90A of the 12nd preferred embodiment of the invention a water is included
Treatment element 91A, wherein water process element 91A have first open communication 9101A and second open communication
9102A, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91A from unit for treating water 90A
Opening 9101A flow into the water process element 91A and Jing the water process element 91A process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102A of water process element 91A flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91A can be flowed into from second open communication 9102A of the water process element 91A of unit for treating water 90A, and
Water after being processed Jing after water process element 91A process, and the first open communication 9101A stream from water process element 91A
Go out.
It should be noted that first diversion chamber 801A is suitable to connect with the first of the water process element 91A of the water treatment system
Open up a mouthful 9101A to be connected, and second diversion chamber 802A is suitable to the second open communication 9102A with water process element 91A
It is connected.
As shown in Figure 73 of accompanying drawing, according to the water process unit of the unit for treating water 90A of the 12nd preferred embodiment of the invention
Part 91A includes an a water process body 911A and liquid collecting element 912A, first connection of wherein water process element 91A
Opening 9101A and the second open communication 9102A are separated by respectively turns up the soil located at water process body 911A, wherein the liquid collecting element
912A extends in the water process body 911A and to the second open communication 9102A direction, and with second open communication
9102A is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101A of water process element 91A
Treatment element 91A, and the water after being processed after the water process body 911A of water process element 91A process, wherein should
Water is suitable to flow to the liquid collecting element 912A and flows out from liquid collecting element 912A after process.In other words, accessing pending water is suitable to certainly
First open communication 9101A of water process element 91A flows into the water of water process element 91A and Jing water process element 91A
Body 911A process is processed, with water after being processed, the current direction liquid collecting element 912A and Jing liquid collecting unit wherein after the process
After part 912A is concentrated, Jing second open communications 9102A flow out.Preferably, liquid collecting element 912A has a tubular structure.
It is highly preferred that make in materials of the water process element 91A of unit for treating water 90A including a water process body 911A containing
At least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 73 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1A of water treatment system is in the first working position, the 7th of the shell 30A that accessing pending water passes through flow-controlled device 1A opens
Mouth 307A flows into the first accommodating chamber 310A of shell 30A and passes through the first of the 7th passage 107A of flow-controlled device 1A respectively and leads
The the second lead-through opening 1081A for opening up mouthful 1071A and the 8th passage 108A flows into the 7th passage 107A and the 8th passage 108A,
Subsequently accessing pending water separately flows into the first passage 101A and Five-channel 105A of flow-controlled device 1A, and the of Jing flow-controlled device 1A
One diversion chamber 801A flows to first open communication 9101A of water process element 91A, and open communications 9101A of Jing first are flowed into
The water process element 91A and Jing after the water process body 911A process of water process element 91A is processed water, the wherein process
Afterwards water Jing liquid collectings element 912A flows to second open communication 9102A of water process element 91A, and then Jing second connections are opened
Mouth 9102A flows to the second diversion chamber 802A of flow-controlled device 1A, and the second diversion chamber of Jing 802A flows into flow-controlled device 1A's with after
Second channel 102A, then the third channel 103A of the 9th passage 109A guiding inflow flow-controlled device 1A of Jing flow-controlled device 1A, and
The 3rd opening 303A of Jing shell 30A is flowed out so that user is used;Wherein when the flow-controlled device 1A of the water treatment system is in
During the second working position, the 7th opening 307A of the shell 30A that accessing pending water passes through flow-controlled device 1A flows into the first of shell 30A
Accommodating chamber 310A and respectively by the first lead-through opening 1071A and the 8th passage 108A of the 7th passage 107A of flow-controlled device 1A
The second lead-through opening 1081A flow into the 7th passage 107A and the 8th passage 108A, subsequent accessing pending water separately flows into the control
The clematis stem road 106A and second channel 102A of device 1A are flowed, and the second diversion chamber 802A of Jing flow-controlled device 1A flows to the water process
Element 91A, and second open communication 9102A of Jing water process element 91A flows into liquid collecting element 912A, then from the liquid collecting
Element 912A flows into water process element 91A, and the water process body 911A of back flush water process element 91A, after flushing
First open communication 9101A of the waste liquid Jing of generation water process element 91A flows out, and subsequently the first of Jing flow-controlled devices 1A is led
Flow chamber 801A flows into the first passage 101A of flow-controlled device 1A, and the 9th passage 109A guiding of Jing flow-controlled device 1A flows through the control
Fourth lane 104A of stream device 1A, then the 4th opening 304A outflows of Jing shells 30A;When the flow-controlled device of the water treatment system
When 1A is in three working positions, the 7th opening 307A of the shell 30A that accessing pending water passes through flow-controlled device 1A flows into shell 30A
The first accommodating chamber 310A and led to by the first lead-through opening 1071A and the 8th of the 7th passage 107A of flow-controlled device 1A respectively
The second lead-through opening 1081A of road 108A flows into the 7th passage 107A and the 8th passage 108A, and subsequent accessing pending water flows respectively
Enter the Five-channel 105A and first passage 101A of flow-controlled device 1A, and the first diversion chamber 801A of Jing flow-controlled device 1A is flowed into and is somebody's turn to do
First open communication 9101A of water process element 91A, and the positive water process body 911A for rinsing water process element 91A, punching
The waste liquid Jing liquid collecting element 912A produced after washing flow to second open communication 9102A of water process element 91A, and Jing this
Two open communications 9102A flow into the second diversion chamber 802A of flow-controlled device 1A, and then Jing second diversion chamber 802A flows into the control
The clematis stem road 106A of stream device 1A, then the fourth lane of the 9th passage 109A pilot flow direction flow-controlled device 1A of Jing flow-controlled device 1A
104A, then the 4th opening 304A outflows of Jing shells 30A;When the flow-controlled device 1A of the water treatment system is in the 4th working position
When, the 7th opening 307A of the shell 30A that accessing pending water passes through flow-controlled device 1A flows into the first accommodating chamber 310A of shell 30A
And respectively by second conducting of the first lead-through opening 1071A and the 8th passage 108A of the 7th passage 107A of flow-controlled device 1A
Opening 1081A flows into the 7th passage 107A and the 8th passage 108A, and subsequent accessing pending water separately flows into the of flow-controlled device 1A
Two passage 102A and clematis stem road 106A, and the second diversion chamber 802A of Jing flow-controlled device 1A flows to water process element 91A, and
Second open communication 9102A of Jing water process element 91A flows into liquid collecting element 912A, then flows from liquid collecting element 912A
Enter water process element 91A, and water, the process Jing after the water process body 911A process of water process element 91A is processed
Afterwards first open communication 9101A of water Jing water process element 91A flows out, then the first diversion chamber 801A of Jing flow-controlled devices 1A
The Five-channel 105A of flow-controlled device 1A is flowed into, then the 9th passage 109A guiding of Jing flow-controlled device 1A flows into flow-controlled device 1A's
Third channel 103A, and the 3rd opening 303A of Jing shell 30A flows out and uses for user.
It should be noted that being according to of the invention preferable when the flow-controlled device 1A of the water treatment system is as shown in Figure 70 G of accompanying drawing
During a kind of optional enforcement of the flow-controlled device of embodiment, shell 30A1 has one first opening 301A1, second opening
The of 302A1, one the 3rd opening 303A1,304A1 and one the 7th opening 307A1 of the 4th opening, the wherein flow-controlled device
One passage 101A1 is extended downwardly and from the first flow control element from the first flow control face 100A1 of first flow control element 10A1
End portion 112A1 of the first flow control body 11A1 of 10A1 stretches out to be connected with first opening 301A1;This second lead to
Road 102A1 is extended downwardly and from first flow control element 10A1's from the first flow control face 100A1 of first flow control element 10A1
End portion 112A1 of the first flow control body 11A1 stretches out to be connected with second opening 302A1;The third channel
103A1 is extended downwardly and from the of first flow control element 10A1 from the first flow control face 100A1 of first flow control element 10A1
End portion 112A1 of one flow control body 11A1 stretches out to be connected with the 3rd opening 303A1;Fourth lane 104A1
Extend downwardly and from first flow control of first flow control element 10A1 from the first flow control face 100A1 of first flow control element 10A1
End portion 112A1 of body 11A1 stretches out to be connected with the 4th opening 304A1;The first accommodating chamber 310A1 with should
7th opening 307A1 is connected.
It is understood that when further there is the shell 30A1 of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening that the first opening 301A1 and that road 101A1 is connected is connected with the second channel 102A1 of the flow-controlled device
During 302A1, first open communication 9101A of the water process element 91A of the unit for treating water 90A of the water treatment system is suitable to and this
First opening 301A1 is connected, and connects out with the second of the water process element 91A of the unit for treating water 90A of the water treatment system
Mouth 9102A is suitable to be connected with second opening 302A1.
It should be noted that because the flow-controlled device further includes one by first passage 101A1 and the Five-channel
The first conductive channel 1015A1 that 105A1 is connected and one are connected second channel 102A1 with clematis stem road 106A1
The second conductive channel 1026A1, therefore when the water treatment system flow-controlled device 1A1 be in the first working position when, accessing pending water lead to
The 7th opening 307A1 for crossing the shell 30A1 of flow-controlled device 1A1 flows into the first accommodating chamber 310A1 of shell 30A1 and leads to respectively
Cross the first lead-through opening 1071A1 and second lead-through opening of the 8th passage 108A1 of the 7th passage 107A1 of flow-controlled device 1A1
1081A1 flows into the 7th passage 107A1 and the 8th passage 108A1, and subsequent accessing pending water separately flows into the of flow-controlled device 1A1
One passage 101A1 and Five-channel 105A1, wherein flowing into the of accessing pending water Jing of Five-channel 105A1 flow-controlled device 1A1
One conductive channel 1015A1 flows into first passage 101A1, then flows into the first passage with the passage 107A1 of Jing the 7th
The first opening 301A1 of Jing shell 30A1 flows out after the accessing pending water of 101A1 is converged, and flows to water process element 91A's
First open communication 9101A, and open communications 9101A of Jing first flow into water process element 91A and Jing water process element 91A
Water process body 911A process processed after water, water Jing liquid collectings element 912A flows to water process unit wherein after the process
Second open communication 9102A of part 91A, then Jing second open communications 9102A flow to the shell 30A1's of flow-controlled device 1A1
Second opening 302A1, then flow into the second channel 102A1 of flow-controlled device 1A1, then the 9th passage 109A1 of Jing flow-controlled device 1A1
Guiding flows into the third channel 103A1 of flow-controlled device 1A1, and the 3rd opening 303A1 of Jing shell 30A1 is flowed out for using
Person uses;When the flow-controlled device 1A1 of the water treatment system is in the second working position, accessing pending water is by the outer of flow-controlled device 1A1
The 7th opening 307A1 of shell 30A1 flows into the first accommodating chamber 310A1 of shell 30A1 and passes through the of flow-controlled device 1A1 respectively
The second lead-through opening 1081A1 of the first lead-through opening 1071A1 and the 8th passage 108A1 of seven passage 107A1 flows into the 7th
Passage 107A1 and the 8th passage 108A1, then accessing pending water separately flow into the clematis stem road 106A1 and second of flow-controlled device 1A1
Passage 102A1, wherein flowing into second conductive channel 1026A1 of the accessing pending water Jing flow-controlled device 1A1 of clematis stem road 106A1
Second channel 102A1 is flowed into, the accessing pending water for then flowing into second channel 102A1 with the passage 108A1 of Jing the 8th is converged
Flow out by the second opening 302A1 of shell 30A1, and flow to water process element 91A, and Jing water process element 91A
Second open communication 9102A flows into liquid collecting element 912A, then flows into water process element 91A from liquid collecting element 912A,
With the water process body 911A of back flush water process element 91A, the waste liquid Jing water process element 91A of generation after flushing
First open communication 9101A flows out, and the first opening 301A1 of the shell 30A1 of Jing flow-controlled device 1A1 flows into flow-controlled device 1A1's
First passage 101A1, then the fourth lane of the 9th passage 109A1 guiding inflow flow-controlled device 1A1 of Jing flow-controlled device 1A1
104A1, then the 4th opening 304A1 outflows of Jing shells 30A1;When the flow-controlled device 1A1 of the water treatment system is in the 3rd work
When making position, the 7th opening 307A of the shell 30A1 that accessing pending water passes through flow-controlled device 1A1 flows into first appearance of shell 30A1
Receive room 310A1 and respectively by the first lead-through opening 1071A1 and the 8th passage of the 7th passage 107A1 of flow-controlled device 1A
The second lead-through opening 1081A1 of 108A flows into the 7th passage 107A1 and the 8th passage 108A1, and then accessing pending water flows respectively
Enter the Five-channel 105A1 and first passage 101A1 of flow-controlled device 1A1, wherein flowing into the accessing pending water of the Five-channel 105A1
First conductive channel 1015A1 of Jing flow-controlled device 1A1 flows into first passage 101A1, then with the passage 108A1 of Jing the 8th
Flow into first passage 101A1 accessing pending water converge after the first opening 301A1 of Jing shell 30A1 flow out, and flow into the water
First open communication 9101A for the treatment of element 91A, and the positive water process body 911A for rinsing water process element 91A, rinse
The waste liquid Jing for producing afterwards liquid collecting element 912A flow to second open communication 9102A of water process element 91A, and Jing this second
Open communication 9102A flows into the second opening 302A1 of the shell 30A1 of flow-controlled device 1A1, then flow into flow-controlled device 1A1 second
Passage 102A1, then second conductive channel 1026A1 of Jing flow-controlled device 1A1 flows into the clematis stem road 106A1 of flow-controlled device 1A1,
Fourth lane 104A1 of the 9th passage 109A1 pilot flow direction flow-controlled device 1A1 of Jing flow-controlled devices 1A1 again, then Jing shells
The 4th opening 304A1 of 30A1 flows out;When the flow-controlled device 1A1 of the water treatment system is in four working positions, accessing pending water is led to
The 7th opening 307A1 for crossing the shell 30A1 of flow-controlled device 1A1 flows into the first accommodating chamber 310A1 of shell 30A1 and leads to respectively
Cross the first lead-through opening 1071A1 and second lead-through opening of the 8th passage 108A1 of the 7th passage 107A1 of flow-controlled device 1A1
1081A1 flows into the 7th passage 107A1 and the 8th passage 108A1, and subsequent accessing pending water separately flows into the of flow-controlled device 1A1
Two passage 102A1 and clematis stem road 106A1, wherein flowing into the of the accessing pending water Jing flow-controlled device 1A1 of clematis stem road 106A1
Two conductive channels 1026A1 flow into second channel 102A1, then flow into the second channel with the passage 107A1 of Jing the 7th
The second opening 302A1 of Jing shell 30A1 flows out after the accessing pending water of 102A1 is converged, and flows to water process element 91A, and
Second open communication 9102A of Jing water process element 91A flows into liquid collecting element 912A, then flows from liquid collecting element 912A
Enter water process element 91A, and water, the process Jing after the water process body 911A process of water process element 91A is processed
Afterwards first open communication 9101A of water Jing water process element 91A flows out, and the first of the shell 30A1 of Jing flow-controlled device 1A1 opens
Mouth 301A1 flows into the first passage 101A1 of flow-controlled device 1A1, then first conductive channel 1015A1 of Jing flow-controlled device 1A1 is flowed into
The Five-channel 105A1 of flow-controlled device 1A1, then the 9th passage 109A1 guiding inflow flow-controlled device 1A1 of Jing flow-controlled device 1A1
Third channel 103A1, and the 3rd opening 303A1 of Jing shell 30A1 flows out and uses for user.Preferably, Yi Benfa
7th passage 107A of the flow-controlled device of bright preferred embodiment and the 8th passage 108A phase speculars, and the 7th passage 107A and
Eight passage 108A are connected with the first accommodating chamber, so that the water in first accommodating chamber 310A can simultaneously flow into the 7th
Passage 107A and the 8th passage 108A.That is, when the flow-controlled device is in the first working position, the second working position, the 3rd work
When position and four working positions, the current in first accommodating chamber 310A can simultaneously by the 7th passage 107A and the 8th passage
108A, to increase the outflow of the first flow control element 10A of the Jing flow-controlled devices in the water unit interval in first accommodating chamber 310A
Amount.In addition, using the water treatment system of flow-controlled device of the present invention not only positive process can be carried out to accessing pending water, can also control
Current reverse flow and reverse process function is carried out to the accessing pending water.This positive water process work(to unit for treating water 90A
Energy and being used alternatingly for reverse treatment function can improve the service efficiency of the unit for treating water and extend the unit for treating water
Service life.In addition, when rotating the second flow control element 20A of the flow-controlled device when user to adjust it and be in different operating position,
The regulation of the first working position of the flow-controlled device, the second working position, the 3rd working position and the 4th working position is adjacent in action relationships
Connect, so that the flow-controlled device more conforms to the use habit of user and reduces the second control during the flow-controlled device use
The service life carried out back rotation, extend flow-controlled device of fluid element.Further, when the flow-controlled device is in the second working position and
During three working positions, third channel 103A is blocked and stops supplying water, and does not need the water treatment system to face so as to meet user
When provide unprocessed mistake accessing pending water use occasion.
With reference to shown in Figure 74 A to Figure 77 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 13rd preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10B and one
Dynamicly located at the second flow control element 20B of first flow control element 10B, wherein the first flow control element 10B includes one first
Flow control body 11B, the first flow control body 11B include top ends 111B, and wherein top ends 111B form one first
Flow control face 100B;Second flow control element 20B includes that a second flow control body 21B, the second flow control body 21B have one
, from the upwardly extending high end 212B of bottom 211B, bottom 211B forms one second control for bottom 211B and one
Stream interface 200B;The wherein first flow control face 100B of first flow control element 10B be suitable to second flow control element 20B this second
Flow control face 200B contacts.
As shown in Figure 74 B to Figure 74 D of accompanying drawing, further, as shown in Figure 75 A to Figure 75 D of accompanying drawing, the flow-controlled device
Top ends 111B of the first flow control element 10B include a first central part 1111B, first edge portion 1112B and one
The first pars intermedia 1113B between the first central part 1111B and first edge portion 1112B is extended in, the second flow control unit
The bottom 211B of part 20B include the second central part 2111B, a second edge portion 2112B and one extend in this
The second pars intermedia 2113B between two central part 2111B and second edge portion 2112B, the wherein flow-controlled device have one first
Passage 101B, second channel 102B, third channel 103B, fourth lane 104B, Five-channel 105B,
One clematis stem road 106B, the 7th passage 107B, a 8th passage 108B and a 9th passage 109B, wherein this
One passage 101B, second channel 102B, third channel 103B, fourth lane 104B, Five-channel 105B and clematis stem road 106B
It is respectively arranged on the first flow control body 11B of first flow control element 10B;7th passage 107B, the 8th passage 108B and the 9th
Passage 109B is respectively arranged on second flow control body 21B, wherein first passage 101B, second channel 102B, third channel
103B, fourth lane 104B, Five-channel 105B and clematis stem road 106B are respectively from first flow control of first flow control element 10B
The first flow control face 100B of body 11B is extended downwardly;Wherein the 7th passage 107B is from the bottom of second flow control body 21B
The second flow control face 200B of portion 211B upwardly extend and bottom 211B from second flow control body 21B the second pars intermedia
2113B stretches out and forms a first lead-through opening 1071B being connected with space outerpace all the time;8th passage 108B
Upwardly extend from the second flow control face 200B of the bottom 211B of second flow control body 21B and from second flow control body 21B
Bottom 211B the second pars intermedia 2113B stretch out and formed one be connected with space outerpace all the time second conducting
Opening 1081B;9th passage 109B prolongs upwards from the second flow control face 200B of the bottom 211B of second flow control body 21B
Extend the high end 212B of the second flow control body 21B of second flow control element 20B.In other words, the 7th passage 107B
The second lead-through opening 1081B of the first lead-through opening 1071B and the 8th passage 108B can respectively keep the 7th passage 107B
With the 8th passage 108B all the time with space outerpace, be especially connected with the space outerpace of flow-controlled device.Preferably, the flow-controlled device
First passage 101B, second channel 102B, fourth lane 104B, Five-channel 105B and clematis stem road 106B respectively from this
First pars intermedia 1113B of top ends 111B of one flow control body 11B extends inwardly to first center of top ends 111B
Portion 1111B;Third channel 103B inwardly prolongs from the first pars intermedia 1113B of top ends 111B of first flow control body 11B
Extend the first central part 1111B of top ends 111B and extend out to first edge portion 1112B;The flow-controlled device should
Second pars intermedia 2113Bs of the 7th passage 107B from the bottom 211B of the second flow control body 21B of second flow control element 20B
Stretch out;8th passage 108B of the flow-controlled device is from the bottom of the second flow control body 21B of second flow control element 20B
The second pars intermedia 2113B of 211B stretches out;9th passage 109B of the flow-controlled device from second flow control element 20B second
The second pars intermedia 2113B of the bottom 211B of flow control body 21B extends out to second side of the bottom 211B
Edge 2112B.
As shown in Figure 76 A to Figure 76 D of accompanying drawing, the second flow control element 20B can be rotated relative to the first flow control element 10B
So that the flow-controlled device has first working position, the 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 107B of the flow-controlled device is connected with first passage 101B,
8th passage 108B of the flow-controlled device is connected with Five-channel 105B, and the 9th passage 109B of the flow-controlled device is logical with second respectively
Road 102B is connected with third channel 103B;When flow-controlled device be in the second working position when, the 7th passage 107B of the flow-controlled device with
Clematis stem road 106B is connected, and the 8th passage 108B of the flow-controlled device is connected with second channel 102B, and the 9th of the flow-controlled device the
Passage 109B is connected respectively with first passage 101B with fourth lane 104B, third channel 103B and the flow control of the flow-controlled device
The upper outer space of the first flow control body 11B of the first flow control element 10B of device is connected;When flow-controlled device is in the 3rd work
During position, the 7th passage 107B of the flow-controlled device is connected with Five-channel 105B, the 8th passage 108B of the flow-controlled device and first
Passage 101B is connected, and the 9th passage 109B of the flow-controlled device is connected respectively with fourth lane 104B and clematis stem road 106B,
The upper outer of the first flow control body 11B of the third channel 103B of the flow-controlled device and the first flow control element 10B of the flow-controlled device
Space is connected;When flow-controlled device is in four working positions, the 7th passage 107B of the flow-controlled device is connected with second channel 102B
Logical, the 8th passage 108B of the flow-controlled device is connected with clematis stem road 106B, and the 9th passage 109B of the flow-controlled device is respectively with the
Triple channel 103B and Five-channel 105B are connected.
Preferably, when flow-controlled device is in the first working position, fourth lane 104B and clematis stem road 106B of the flow-controlled device
Blocked by the second flow control body 21B of the second flow control element 20B respectively, the second flow control body 21B of second flow control element 20B
Respectively by second channel 102B and third channel 103B and the upper outer spaced apart of the flow-controlled device;At flow-controlled device
When the second working position, the Five-channel 105B of the flow-controlled device is blocked by the second flow control body 21B of the second flow control element 20B,
The second flow control body 21B of second flow control element 20B is respectively by first passage 101B and fourth lane 104B and the control
The upper outer spaced apart of stream device;When flow-controlled device is in three working positions, the second channel 102B of the flow-controlled device is by the
The second flow control body 21B obstructions of two flow control element 20B, the second flow control body 21B of second flow control element 20B respectively should
The upper outer spaced apart of fourth lane 104B and the clematis stem road 106B and the flow-controlled device;The 4th is in when flow-controlled device
During working position, the first passage 101B of the flow-controlled device and fourth lane 104B are respectively by second flow control of the second flow control element 20B
Body 21B blocks, and the second flow control body 21B of second flow control element 20B is respectively by third channel 103B and Five-channel
The upper outer spaced apart of 105B and the flow-controlled device.
As shown in Figure 75 A to Figure 75 D of accompanying drawing, the first of top ends 111B of the first flow control element 10B of the flow-controlled device
Central part 1111B has first nodal point 1110B, second central part of the bottom 211B of second flow control element 20B
2111B has a second central point 2110B, the wherein bottom of the second flow control body 21B of second flow control element 20B
There is the second edge portion 2112B of 211B an outward flange 21121B, the third channel 103B of the flow-controlled device to have one the
Triple channel edge 1031B, 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
The ultimate range of the third channel edge 1031B of first nodal point 1110B of 1111B to third channel 103B is L1B, and this
The second edge portion of the second central point 2110B of two central part 2111B to the bottom 211B of second flow control element 20B
The ultimate range of the outward flange 21121B of 2112B is L2B, and the wherein L1B is more than the L2B.
As shown in Figure 75 A to Figure 75 D of accompanying drawing, the second flow control body 21B of second flow control element 20B is further included
One extension 213B, the 9th passage 109B have a 9th channel edge 1091B, wherein extension 213B from this
The high end 212B of two flow control body 21B stretches out and extends downward the 9th channel edge of the 9th passage 109B
1091B, and cause when the flow-controlled device is in the first working position or four working positions, the second of second flow control element 20B
Flow control body 21B can be by third channel 103B and the upper outer spaced apart of the flow-controlled device.Preferably, the flow-controlled device
9th passage 109B can extend out to second flow control element 20B's from the second edge portion 2112B of bottom 211B
Extension 213B.
It should be noted that the first passage 101B of the flow-controlled device, second channel 102B, third channel 103B, fourth lane
104B, Five-channel 105B and clematis stem road 106B be spaced from each other respectively located at the first flow control element the first flow control body
11B;7th passage 107B, the 8th passage 108B and the 9th passage 109B are located at second flow control unit with being spaced from each other respectively
The second flow control body 21B of part 20B.
As shown in Figure 75 A to Figure 75 B of accompanying drawing, the first flow control face 100B of the first flow control element 10B of the flow-controlled device and
The second flow control face 200B of the second flow control element 20B is circle, the first passage 101B of the flow-controlled device, fourth lane 104B,
Clematis stem road 106B, Five-channel 105B, third channel 103B and second channel 102B are deasil arranged in this with this order
The first flow control body 11B of the first flow control element 10B;7th passage 107B, the 8th passage 108B and the 9th of the flow-controlled device leads to
Road 109B is deasil arranged in the second flow control body 21B of second flow control element 20B with this order.Alternatively, the flow control
First passage 101B, fourth lane 104B, clematis stem road 106B, Five-channel 105B, third channel 103B and second that device sets
Passage 102B can also this order be widdershins arranged in the first flow control body 11B of first flow control element 10B;The control simultaneously
7th passage 107B, the 8th passage 108B and the 9th passage 109B of stream device is widdershins arranged in second flow control with this order
The second flow control body 21B of element 20B.
Preferably, first passage 101B, second channel 102B, third channel 103B, fourth lane 104B, Five-channel
105B and clematis stem road 106B are radially located at the first flow control face 100B of first flow control element 10B, and the 7th passage
107B, the 8th passage 108B and the 9th passage 109B are radially located at the second flow control face 200B of second flow control element 20B.
It is highly preferred that first passage 101B is extended downwardly from the first flow control face 100B of first flow control element 10B;Should
Second channel 102B is extended downwardly from the first flow control face 100B of first flow control element 10B;Third channel 103B from this
The first flow control face 100B of one flow control element 10B is extended downwardly and stretched out;Fourth lane 104B is from the first flow control unit
The first flow control face 100B of part 10B is extended downwardly and stretched out;The Five-channel 105B from first flow control element 10B
One flow control face 100B is extended downwardly;It is downward from the first flow control face 100B of first flow control element 10B with the clematis stem road 106B
Extend.Further, the shapes and sizes of the second flow control face 200B of second flow control element 20B are according to the first flow control element
The first flow control face 100B design shapings of 10B, so that the second flow control face 200B of second flow control element 20B is suitable to be located at
The first flow control face 100B of first flow control element 10B, and turn in the relative first flow control element 10B of the second flow control element 20B
When dynamic, adjust the first passage 101B of the first flow control body 11B located at first flow control element 10B, second channel 102B, the
Triple channel 103B, fourth lane 104B, Five-channel 105B and clematis stem road 106B respectively with located at second flow control element 20B
The second flow control body 21B the 7th passage 107B, the connection of the 8th passage 108B and the 9th passage 109B, existed with controlling current
Flow in the different passages of flow-controlled device of the present invention.
As shown in accompanying drawing 75A to Figure 75 D, the first flow control face 100B of the first flow control element 10B of the flow-controlled device has one
Core 1000B shown in individual figure chain lines, wherein core 1000B located at first flow control element 10B the
Second control of the first central part 1111B of top ends 111B of one flow control body 11B, the second flow control element 20B of the flow-controlled device
Stream interface 200B has the central area 2000B shown in a figure chain lines, and wherein central area 2000B is located at second control
First control of the second central part 2111B of the bottom 211B of the second flow control body 21B of fluid element 20B, the wherein flow-controlled device
The core 1000B of the first flow control face 100B of fluid element 10B is provided with first nodal point 1110B, and second flow control
The central area 2000B of the second flow control face 200B of element 20B is provided with a second central point 2110B, wherein first flow control
Part outside the core 1000B of face 100B can be by six the first bluelines through first nodal point 1110B
10002B be divided into clockwise a Part I 1001B, Part II 1002B, Part III 1003B, one
Four part 1004B, a Part V 1005B and a Part VI 1006B;The central area of second flow control face 200B
Part outside 2000B can clockwise be divided into one by six the second blueline 20002B through second central point 2110B
First area 2001B, second area 2002B, the 3rd region 2003B, the 4th region 2004B, one the 5th
Region 2005B and a 6th region 2006B;Wherein every adjacent two of the first flow control face 100B of the first flow control element 10B
Central angle alpha 1B that first blueline 10002B is formed is equal in magnitude;The second flow control face 200B's of second flow control element 20B is every
Central angle alpha 2B of adjacent two the second blueline 20002B formation is equal in magnitude, and wherein first passage 101B is from the first flow control
The Part I 1001B of face 100B is extended downwardly;Second channel 102B is from the first flow control face of first flow control element 10B
The Part VI 1006B of 100B is extended downwardly;Third channel 103B is downward from the Part V 1005B of the first flow control face 100B
Extend;Fourth lane 104B is extended downwardly from the Part II 1002B of the first flow control face 100B;The Five-channel 105B is from
The Part IV 1004B of one flow control face 100B is extended downwardly;Part III of the clematis stem road 106B from the first flow control face 100B
1003B is extended downwardly;7th passage 107B is upwardly extended from the first area 2001B of second flow control face 200B;8th
Passage 108B is upwardly extended from the 4th region 2004B of second flow control face 200B;With the 9th passage 109B from second control
The 5th region 2005B of stream interface 200B and the 6th region 2006B are upwardly extended.
As shown in Figure 74 B and Figure 77 of accompanying drawing, according to the flow-controlled device of the 13rd preferred embodiment of the invention one is further included
Individual shell 30B, and the first flow control body 11B of first flow control element 10B of the flow-controlled device further includes one from the top
End portion 112B that end 111B is extended downwardly, wherein shell 30B include an outer cover body 31B, the wherein outer cover body
31B outwardly and upwardly extends and encloses and is set as one from end portion 112B of the first flow control body 11B of first flow control element 10B
First accommodating chamber 310B, so that outer cover body 31B is formed with a medial wall 311B, a lateral wall 312B and one
Opening up upper end open 3101B, wherein first accommodating chamber 310B are opened respectively with first conducting of the 7th passage 107B
Mouthful 1071B is connected with the second lead-through opening 1081B of the 8th passage 108B, and wherein second flow control element 20B is suitable to the
Two flow control face 200B are facing downward located at the first accommodating chamber 310B and located at the first flow control face of first flow control element 10B
100B.As shown in Figure 74 B of accompanying drawing, further, shell 30B has one the 3rd opening 303B, the 4th opening
304B and one the 7th opening 307B, the wherein the 3rd opening 303B is connected with third channel 103B, the 4th opening 304B
It is connected with fourth lane 104B, the 7th opening 307B is connected with first accommodating chamber 310B.In other words, the third channel
103B is extended downwardly from the first flow control face 100B of first flow control element 10B and controlled from the first of first flow control element 10B
End portion 112B of stream body 11B stretches out to be connected with the 3rd opening 303B;Fourth lane 104B from this first
The first flow control face 100B of flow control element 10B is extended downwardly and from the low of the first flow control body 11B of first flow control element 10B
End 112B stretches out to be connected with the 4th opening 304B.Preferably, the first flow control sheet of first flow control element 10B
End portion 112B of body 11B is integrally formed with the medial wall 311B of the outer cover body 31B of shell 30B.It is highly preferred that the 3rd
Opening 303B, the 4th opening 304B and the 7th opening 307B are respectively arranged on the outer cover body 31B of shell 30B.
It should be noted that when the flow-controlled device is in the first working position or four working positions, second control of the flow-controlled device
The second flow control body 21B of fluid element 20B is by the first accommodating chamber 310B of third channel 103B and the shell 30B of the flow-controlled device
It is spaced;With when the flow-controlled device is in the second working position or three working positions, the third channel 103B of the flow-controlled device is outer with this
The first accommodating chamber 310B of shell 30B is connected.
It should be understood that when the flow-controlled device is in first working position, second flow control of second flow control element 20B
Body 21B is respectively by first receiving of the shell 30B of second channel 102B and third channel 103B and the flow-controlled device
Room 310B is spaced;When the flow-controlled device is in second working position, the second flow control body 21B of second flow control element 20B
Respectively by the first accommodating chamber 310B phases of first passage 101B and fourth lane 104B and the shell 30B of the flow-controlled device
Separate;When the flow-controlled device is in three working positions, the second flow control body 21B of second flow control element 20B respectively should
First accommodating chamber 310B of fourth lane 104B and the clematis stem road 106B and shell 30B of the flow-controlled device is spaced;When
When the flow-controlled device is in four working positions, the second flow control body 21B of second flow control element 20B is respectively by the third channel
The 103B and Five-channel 105B and it is spaced with first accommodating chamber 310B of the shell 30B of the flow-controlled device.
As shown in Figure 74 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10B
With the anti-wear component 40B between the second flow control element 20B, wherein anti-wear component 40B have a wear-resisting body 41B, wherein
The wear-resisting body 41B has a wearing face for being suitable to be contacted with the second flow control face 200B of second flow control body 21B
410B, wherein wearing face 410B through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20B
Body 21B relative to the first flow control body 11B of first flow control element 10B rotate when produced frictional force, so as to extend the control
The service life of stream device.As shown in Figure 74 B of accompanying drawing, further, size and shape and the flow-controlled device of anti-wear component 40B
The first flow control element 10B the first flow control face 100B it is corresponding and wear-resisting body 41B of anti-wear component 40B is spaced from each other ground
Be formed with a first interface 401B, second interface 402B, the 3rd interface 403B, the 4th interface 404B, one
Individual 5th interface 105B and a 6th interface 106B, wherein first interface 401B, second interface 402B, the 3rd interface
403B, the 4th interface 404B, the shape and size of the 5th interface 105B and the 6th interface 106B are respectively with the first of the flow-controlled device
Passage 101B, second channel 102B, third channel 103B, fourth lane 104B, Five-channel 105B and clematis stem road 106B phases
Correspondence.Preferably, when anti-wear component 40B is located at the first flow control element 10B and second flow control element 20B of the flow-controlled device
Between when, there is no the rotation of the first flow control body 11B relative to first flow control element 10B in anti-wear component 40B.More preferably
Ground, anti-wear component 40B has a smoothed process to reduce the wearing face 410B of its degree of roughness.Most preferably, should
The first interface 401B of anti-wear component 40B, second interface 402B, the 3rd interface 403B, the 4th interface 404B, the 5th interface
105B and the 6th interface 106B runs through up and down respectively the wear-resisting body 41B of anti-wear component 40B, so that working as second flow control
The second flow control body 21B of element 20B relative to first flow control element 10B the first flow control body 11B rotate when, the wear-resisting unit
The first interface 401B of part 40B, second interface 402B, the 3rd interface 403B, the 4th interface 404B, the 5th interface 105B and
Six interface 106B can respectively selectively by located at the first passage of the first flow control body 11B of first flow control element 10B
101B, second channel 102B, third channel 103B, fourth lane 104B, Five-channel 105B and clematis stem road 106B with set
In the 7th passage 107B, the 8th passage 108B and the 9th passage 109B of the second flow control body 21B of second flow control element 20B
It is connected.
As shown in Figure 74 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20B
Upwardly extending driving elements 60B of body 21B and one wherein should from the upwardly extending potted component 70B of driving element 60B
Driving element 60B is suitable to the second flow control body 21B of the second flow control element 20B for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11B of part 10B rotates;Wherein potted component 70B is suitable to the medial wall 311B located at shell 30B
To seal first accommodating chamber 310B, so as to prevent the fluid in first accommodating chamber 310B from the upper of first accommodating chamber 310B
End opening 3101B flows out.Preferably, potted component 70B contacts with driving element 60B and is suitable to the driving element
60B is held in place by, so as to the second flow control body 21B for keeping second flow control element 20B is in appropriate location.
As shown in Figure 74 E to Figure 74 F of accompanying drawing, the outer cover body 31B of the shell 30B of the flow-controlled device is from the first flow control unit
End portion 112B of the first flow control body 11B of part 10B is extended downwardly and enclosed and is set as a second accommodating chamber 320B, wherein this
Two accommodating chamber 320B are located at the lower section of end portion 112B of the first flow control body 11B of first flow control element 10B.As accompanying drawing it
Shown in Figure 74 F, flow-controlled device of the present invention further includes a flow blocking element 80B located at second accommodating chamber 320B, wherein should
Flow blocking element 80B is extended downwardly from first flow control body 11B, the medial wall of the wherein flow blocking element 80B and shell 30B
311B forms first be located between the medial wall 311B of the outer cover body 31B of the flow blocking element 80B and shell 30B and leads
Flow chamber 801B, flow blocking element 80B encloses and is set as a second diversion chamber 802B, the wherein first passage 101B of the flow-controlled device and should
Five-channel 105B is extended downwardly from the first flow control face 100B of first flow control element 10B, and respectively with first diversion chamber
801B is connected;The second channel 102B and the clematis stem road 106B of the flow-controlled device is controlled from the first of first flow control element 10B
Stream interface 100B is extended downwardly and is connected with second diversion chamber 802B respectively.Preferably, the first passage 101B of the flow-controlled device
Extend downwardly from the first flow control face 100B of first flow control element 10B with the Five-channel 105B and through the first flow control unit
End portion 112B of the first flow control body 11B of part 10B, to be connected with first diversion chamber 801B respectively;The flow-controlled device
Second channel 102B and the clematis stem road 106B are extended downwardly and run through from the first flow control face 100B of first flow control element 10B
End portion 112B of the first flow control body 11B of first flow control element 10B, to be connected with second diversion chamber 802B respectively
It is logical.
Figure 74 G to Figure 74 H of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In, the flow-controlled device further includes first conductive channel 1015B1 and second conductive channel 1026B1, wherein this
One conductive channel 1015B1 and second conductive channel 1026B1 are respectively arranged on the first flow control sheet of first flow control element 10B1
Body 11B1;Wherein first conductive channel 1015B1 from first passage 101B1 extend to the Five-channel 105B1 and by this
One passage 101B1 is connected with the Five-channel 105B1;Second conductive channel 1026B1 extends from second channel 102B1
It is connected with clematis stem road 106B1 to the clematis stem road 106B1 and by second channel 102B1, wherein first conducting is logical
Road 1015B1 second channel 102B1, clematis stem road 106B1, third channel 103B1, fourth lanes respectively with the flow-controlled device
104B1 and second conductive channel 1026B1 are separated by the first flow control body 11B1 turned up the soil located at first flow control element 10B1;
Second conductive channel 1026B1 respectively with first passage 101B1, Five-channel 105B1, the third channel 103B1 of the flow-controlled device
It is separated by the first flow control body 11B1 turned up the soil located at first flow control element 10B1 respectively with fourth lane 104B1;This first lead to
Road 101B1 and Five-channel 105B1 respectively with second channel 102B1, clematis stem road 106B1, third channel 103B and should
Fourth lane 104B is separated by the first flow control body 11B1 turned up the soil located at first flow control element 10B1;Second channel 102B and
Clematis stem road 106B is separated by and turns up the soil located at first flow control element 10B's with third channel 103B with fourth lane 104B respectively
First flow control body 11B, third channel 103B1 and fourth lane 104B1 are separated by turns up the soil located at first flow control element 10B1
The first flow control body 11B1;It is spaced from each other with the 7th passage 107B1, the 8th passage 108B1 and the 9th passage 109B1
Second flow control body 21B1 of the ground located at second flow control element 20B1;Preferably, the first conductive channel of the flow-controlled device
1015B1 and the second conductive channel 1026B1 are respectively arranged on the inside of the first flow control body 11B1 of first flow control element 10B1,
So that first conductive channel 1015B1 and the second conductive channel 1026B1 are hidden in respectively first flow control element 10B1
The first flow control body 11B1 in, in case fluid stopping Jing first conductive channels 1015B1 and/or the second conductive channel 1026B1
Current flow to the first flow control element of the flow-controlled device by first conductive channel 1015B1 and/or the second conductive channel 1026B1
The space outerpace of 11B1.Shown in Figure 74 G of accompanying drawing, further, the optional shell 30B1 for implementing flow-controlled device has one the
The one opening 302B1 of opening 301B1 and second, the wherein first passage 101B1 of the flow-controlled device is from the first flow control element
The first flow control face 100B1 of 10B1 extend downwardly and the first flow control body 11B1 from first flow control element 10B1 end portion
112B1 stretches out to be connected with first opening 301B1;Second channel 102B1 is from first flow control element 10B1's
First flow control face 100B1 extend downwardly and the first flow control body 11B1 from first flow control element 10B1 end portion 112B1
Stretch out to be connected with second opening 302B1;Third channel 103B1 is controlled from the first of first flow control element 10B1
Stream interface 100B1 is extended downwardly and from end portion 112B1 of the first flow control body 11B1 of first flow control element 10B1 to extension
Stretch to be connected with the 3rd opening 303B1;With fourth lane 104B1 from the first flow control face of first flow control element 10B1
100B1 extend downwardly and from end portion 112B1 of the first flow control body 11B1 of first flow control element 10B1 stretch out with
It is connected with the 4th opening 304B1;The first accommodating chamber 310B1 is connected with the 7th opening 307B1.Preferably, this
The inner side of end portion 112B1 of the first flow control body 11B1 of one flow control element 10B1 and the outer cover body 31B1 of shell 30B1
Wall 311B1 is integrally formed.It is highly preferred that first opening 301B1, the second opening 302B1, the 3rd opening 303B1, the 4th opening
The opening 307B1 of 304B1 and the 7th are respectively arranged on the outer cover body 31B1 of shell 30B1.
It should be noted that when this it is optional implement flow-controlled device shell 30B1 have this first opening 301B1 and this second
Be open 302B1, and the first passage 101B1 of the flow-controlled device is connected with first opening 301B1;Second channel 102B1 with
When second opening 302B1 is connected, the flow-controlled device will not need the flow blocking element of the flow-controlled device of present pre-ferred embodiments
80B。
Figure 74 I to Figure 74 K of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional flow-controlled device of implementing further include a flow blocking element 80B2 located at second accommodating chamber 320B2, wherein should be every
Fluid element 80B2 is extended downwardly from first flow control body 11B2, the medial wall of the wherein flow blocking element 80B2 and shell 30B2
311B2 forms one and is located between the medial wall 311B2 of the outer cover body 31B2 of the flow blocking element 80B2 and shell 30B2
First diversion chamber 801B2, flow blocking element 80B2 enclose and are set as a second diversion chamber 802B2, and wherein the first of the flow-controlled device is led to
Road 101B2 is extended downwardly from the first flow control face 100B2 of first flow control element 10B, and is connected with first diversion chamber 801B2
It is logical;The second channel 102B2 of the flow-controlled device extend downwardly from the first flow control face 100B2 of first flow control element 10B2 and with this
Second diversion chamber 802B2 is connected.Preferably, the first passage 101B2 of the flow-controlled device from first flow control element 10B2
One flow control face 100B2 extend downwardly and the first flow control body 11B2 through first flow control element 10B2 end portion 112B2,
To be connected with first diversion chamber 801B2;The second channel 102B2 of the flow-controlled device from first flow control element 10B2 first
Flow control face 100B2 extend downwardly and the first flow control body 11B2 through first flow control element 10B2 end portion 112B2, with
It is connected with second diversion chamber 802B2.In this embodiment, the shell 30B2 of the flow-controlled device is no longer provided with the first opening
The opening 302B of 301B and second.
Figure 74 L to Figure 74 M of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional shell 30B3 for implementing flow-controlled device have one first opening 301B3, one second opening 302B3, one the 3rd
Opening 303B3, a 4th opening 304B3, wherein 305B3 and one the 6th opening 306B3 of the 5th opening, the flow-controlled device
First passage 101B3 extend downwardly from the first flow control face 100B3 of first flow control element 10B3 and from first flow control unit
End portion 112B3 of the first flow control body 11B3 of part 10B3 stretches out to be connected with first opening 301B3;This second
Passage 102B3 is extended downwardly and from first flow control element 10B3 from the first flow control face 100B3 of first flow control element 10B3
The first flow control body 11B3 end portion 112B3 stretch out with this second opening 302B3 be connected;The third channel
103B3 is extended downwardly and from the of first flow control element 10B3 from the first flow control face 100B3 of first flow control element 10B3
End portion 112B3 of one flow control body 11B3 stretches out to be connected with the 3rd opening 303B3;Fourth lane 104B3
Extend downwardly and from first flow control of first flow control element 10B3 from the first flow control face 100B3 of first flow control element 10B3
End portion 112B3 of body 11B3 stretches out to be connected with the 4th opening 304B3;The Five-channel 105B3 from this
The first flow control face 100B3 of one flow control element 10B3 is extended downwardly and from the first flow control body of first flow control element 10B3
End portion 112B3 of 11B3 stretches out to be connected with the 5th opening 305B3;The clematis stem road 106B3 is from first control
The first flow control face 100B3 of fluid element 10B3 is extended downwardly and from the first flow control body 11B3's of first flow control element 10B3
End portion 112B3 stretches out to be connected with the 6th opening 306B3;The first accommodating chamber 310B3 and the 7th opening
307B3 is connected.Preferably, this first opening 301B3, second opening 302B3, the 3rd opening 303B3, the 4th opening 304B3,
5th opening 305B3, the 6th opening 306B3 and the 7th opening 307B3 are respectively arranged on the outer cover body 31B3 of shell 30B3.
Figure 77 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1B and at least one water treatment facilities, such as unit for treating water 90B, wherein unit for treating water 90B is applied to
Accessing pending water is processed, wherein unit for treating water 90B is connected with flow-controlled device 1B.
As shown in Figure 77 of accompanying drawing, according to the unit for treating water 90B of the 13rd preferred embodiment of the invention a water is included
Treatment element 91B, wherein water process element 91B have first open communication 9101B and second open communication
9102B, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91B from unit for treating water 90B
Opening 9101B flow into the water process element 91B and Jing the water process element 91B process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102B of water process element 91B flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91B can be flowed into from second open communication 9102B of the water process element 91B of unit for treating water 90B, and
Water after being processed Jing after water process element 91B process, and the first open communication 9101B stream from water process element 91B
Go out.
It should be noted that first diversion chamber 801B is suitable to connect with the first of the water process element 91B of the water treatment system
Open up a mouthful 9101B to be connected, and second diversion chamber 802B is suitable to the second open communication 9102B with water process element 91B
It is connected, so that first diversion chamber 801B is suitable to distinguish the first passage 101B and Five-channel 105B of the flow-controlled device
It is connected with first open communication 9101B of the water process element 91B of unit for treating water 90B, and second diversion chamber 802B
Be suitable to by the second channel 102B and clematis stem road 106B of the flow-controlled device respectively with the water process element of unit for treating water 90B
Second open communication 9102B of 91B is connected.
As shown in Figure 77 of accompanying drawing, according to the water process unit of the unit for treating water 90B of the 13rd preferred embodiment of the invention
Part 91B includes an a water process body 911B and liquid collecting element 912B, first connection of wherein water process element 91B
Opening 9101B and the second open communication 9102B are separated by respectively turns up the soil located at water process body 911B, wherein the liquid collecting element
912B extends in the water process body 911B and to the second open communication 9102B direction, and with second open communication
9102B is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101B of water process element 91B
Treatment element 91B, and the water after being processed after the water process body 911B of water process element 91B process, wherein should
Water is suitable to flow to the liquid collecting element 912B and flows out from liquid collecting element 912B after process.In other words, accessing pending water is suitable to certainly
First open communication 9101B of water process element 91B flows into the water of water process element 91B and Jing water process element 91B
Body 911B process is processed, with water after being processed, the current direction liquid collecting element 912B and Jing liquid collecting unit wherein after the process
After part 912B is concentrated, Jing second open communications 9102B flow out.Preferably, liquid collecting element 912B has a tubular structure.
It is highly preferred that make in materials of the water process element 91B of unit for treating water 90B including a water process body 911B containing
At least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 77 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1B of water treatment system is in the first working position, the 7th of the shell 30B that accessing pending water passes through flow-controlled device 1B opens
Mouth 307B flows into the first accommodating chamber 310B of shell 30B and passes through the first of the 7th passage 107B of flow-controlled device 1B respectively and leads
The the second lead-through opening 1081B for opening up mouthful 1071B and the 8th passage 108B flows into the 7th passage 107B and the 8th passage 108B,
Subsequently accessing pending water separately flows into the first passage 101B and Five-channel 105B of flow-controlled device 1B, and the of Jing flow-controlled device 1B
One diversion chamber 801B flows to first open communication 9101B of water process element 91B, and open communications 9101B of Jing first are flowed into
The water process element 91B and Jing after the water process body 911B process of water process element 91B is processed water, the wherein process
Afterwards water Jing liquid collectings element 912B flows to second open communication 9102B of water process element 91B, and then Jing second connections are opened
Mouth 9102B flows to the second diversion chamber 802B of flow-controlled device 1B, and the second diversion chamber of Jing 802B flows into flow-controlled device 1B's with after
Second channel 102B, then the third channel 103B of the 9th passage 109B guiding inflow flow-controlled device 1B of Jing flow-controlled device 1B, and
The 3rd opening 303B of Jing shell 30B is flowed out so that user is used;Wherein when the flow-controlled device 1B of the water treatment system is in
During the second working position, the 7th opening 307B of the shell 30B that accessing pending water passes through flow-controlled device 1B flows into the first of shell 30B
Accommodating chamber 310B and respectively by the first lead-through opening 1071B, the 8th passage 108B of the 7th passage 107B of flow-controlled device 1B
The second lead-through opening 1081B and third channel 103B flow into the 7th passage 107B, the 8th passage 108B and third channel
103B, wherein the accessing pending water for flowing into the 7th passage 107B and the 8th passage 108B separately flows into the clematis stem of flow-controlled device 1B
Road 106B and second channel 102B, and the second diversion chamber 802B of Jing flow-controlled device 1B flows to water process element 91B, and Jing should
Second open communication 9102B of water process element 91B flows into liquid collecting element 912B, and then flowing into from liquid collecting element 912B should
Water process element 91B, and the water process body 911B of back flush water process element 91B, the waste liquid Jing produced after flushing should
First open communication 9101B of water process element 91B flows out, and subsequently the first diversion chamber 801B of Jing flow-controlled devices 1B is flowed into and is somebody's turn to do
The first passage 101B of flow-controlled device 1B, and the 9th passage 109B guiding of Jing flow-controlled device 1B flows through the four-way of flow-controlled device 1B
Road 104B, then the 4th opening 304B outflows of Jing shells 30B, wherein flowing into the water Jing of the third channel 103B shells
The 3rd opening 303B of 30B is flowed out so that user is used;When the flow-controlled device 1B of the water treatment system is in three working positions,
The first accommodating chamber 310B that the 7th opening 307B of the shell 30B that accessing pending water passes through flow-controlled device 1B flows into shell 30B is simultaneously
Opened by second conducting of the first lead-through opening 1071B of the 7th passage 107B of flow-controlled device 1B, the 8th passage 108B respectively
Mouth 1081B and third channel 103B flows into the 7th passage 107B, the 8th passage 108B and third channel 103B, wherein flow into should
The accessing pending water of the 7th passage 107B and the 8th passage 108B separately flows into the Five-channel 105B and first of flow-controlled device 1B and leads to
Road 101B, and the first diversion chamber 801B of Jing flow-controlled device 1B flows into first open communication 9101B of water process element 91B,
With the positive water process body 911B for rinsing water process element 91B, the waste liquid Jing liquid collecting elements 912B streams produced after flushing
To second open communication 9102B of water process element 91B, and Jing second open communications 9102B flow into flow-controlled device 1B's
Second diversion chamber 802B, then Jing second diversion chamber 802B flows into the clematis stem road 106B of flow-controlled device 1B, then the Jing flow controls
Fourth lane 104B of the 9th passage 109B pilot flow direction flow-controlled device 1B of device 1B, then Jing shells 30B the 4th opening
304B flows out, wherein the 3rd opening 303B for flowing into the water Jing of third channel 103B shell 30B is flowed out so that user makes
With;When the flow-controlled device 1B of the water treatment system is in four working positions, the shell 30B's that accessing pending water passes through flow-controlled device 1B
7th opening 307B flows into the first accommodating chamber 310B of shell 30B and respectively by the 7th passage 107B's of flow-controlled device 1B
The second lead-through opening 1081B of the first lead-through opening 1071B and the 8th passage 108B flows into the 7th passage 107B and the 8th and leads to
Road 108B, subsequent accessing pending water separately flows into the second channel 102B and clematis stem road 106B of flow-controlled device 1B, and the Jing flow controls
The second diversion chamber 802B of device 1B flows to water process element 91B, and second open communication of Jing water process element 91B
9102B flows into liquid collecting element 912B, then flows into water process element 91B from liquid collecting element 912B, and the Jing water process
The water process body 911B process of element 91B processed after water, after the process water Jing water process element 91B first connection
Opening 9101B flows out, and then the first diversion chamber 801B of Jing flow-controlled devices 1B flows into the Five-channel 105B of flow-controlled device 1B, then
The 9th passage 109B guiding of Jing flow-controlled device 1B flows into the third channel 103B of flow-controlled device 1B, and the of Jing shell 30B
Three opening 303B are flowed out so that user is used.
It should be noted that being according to of the invention preferable when the flow-controlled device 1B of the water treatment system is as shown in Figure 74 G of accompanying drawing
During a kind of optional enforcement of the flow-controlled device of embodiment, shell 30B1 has one first opening 301B1, second opening
302B1, a 3rd opening 303B1,304B1 and one the 7th opening 307B1's of the 4th opening, the wherein flow-controlled device
First passage 101B1 is extended downwardly and from the first flow control element from the first flow control face 100B1 of first flow control element 10B1
End portion 112B1 of the first flow control body 11B1 of 10B1 stretches out to be connected with first opening 301B1;This second lead to
Road 102B1 is extended downwardly and from first flow control element 10B1's from the first flow control face 100B1 of first flow control element 10B1
End portion 112B1 of the first flow control body 11B1 stretches out to be connected with second opening 302B1;The third channel
103B1 is extended downwardly and from the of first flow control element 10B1 from the first flow control face 100B1 of first flow control element 10B1
End portion 112B1 of one flow control body 11B1 stretches out to be connected with the 3rd opening 303B1;Fourth lane 104B1
Extend downwardly and from first flow control of first flow control element 10B1 from the first flow control face 100B1 of first flow control element 10B1
End portion 112B1 of body 11B1 stretches out to be connected with the 4th opening 304B1;The first accommodating chamber 310B1 with should
7th opening 307B1 is connected.
It is understood that when further there is the shell 30B1 of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening that the first opening 301B1 and that road 101B1 is connected is connected with the second channel 102B1 of the flow-controlled device
During 302B1, first open communication 9101B of the water process element 91B of the unit for treating water 90B of the water treatment system is suitable to and this
First opening 301B1 is connected, and connects out with the second of the water process element 91B of the unit for treating water 90B of the water treatment system
Mouth 9102B is suitable to be connected with second opening 302B1.
It should be noted that because flow-controlled device 1B1 further includes that one leads to first passage 101B1 and the 5th
The first conductive channel 1015B1 that road 105B1 is connected and one are connected second channel 102B1 with clematis stem road 106B1
The second logical conductive channel 1026B1, therefore when the flow-controlled device 1B1 of the water treatment system is in the first working position, accessing pending water
The first accommodating chamber 310B1 and difference of shell 30B1 are flowed into by the 7th opening 307B1 of the shell 30B1 of flow-controlled device 1B1
Opened by second conducting of the first lead-through opening 1071B1 and the 8th passage 108B1 of the 7th passage 107B1 of flow-controlled device 1B1
Mouth 1081B1 flows into the 7th passage 107B1 and the 8th passage 108B1, and subsequent accessing pending water separately flows into flow-controlled device 1B1's
First passage 101B1 and Five-channel 105B1, wherein flowing into accessing pending water Jing of Five-channel 105B1 flow-controlled device 1B1's
First conductive channel 1015B1 flows into first passage 101B1, then flows into the first passage with the passage 107B1 of Jing the 7th
The first opening 301B1 of Jing shell 30B1 flows out after the accessing pending water of 101B1 is converged, and flows to water process element 91B's
First open communication 9101B, and open communications 9101B of Jing first flow into water process element 91B and Jing water process element 91B
Water process body 911B process processed after water, water Jing liquid collectings element 912B flows to water process unit wherein after the process
Second open communication 9102B of part 91B, then Jing second open communications 9102B flow to the shell 30B1's of flow-controlled device 1B1
Second opening 302B1, then flow into the second channel 102B1 of flow-controlled device 1B1, then the 9th passage 109B1 of Jing flow-controlled device 1B1
Guiding flows into the third channel 103B1 of flow-controlled device 1B1, and the 3rd opening 303B1 of Jing shell 30B1 is flowed out for using
Person uses;Wherein when the flow-controlled device 1B1 of the water treatment system is in the second working position, accessing pending water passes through flow-controlled device 1B1
The 7th opening 307B1 of shell 30B1 flow into the first accommodating chamber 310B1 of shell 30B1 and respectively by flow-controlled device 1B1
The 7th passage 107B1 the first lead-through opening 1071B1, the second lead-through opening 1081B1 of the 8th passage 108B1 and threeway
Road 103B1 flows into the 7th passage 107B1, the 8th passage 108B1 and third channel 103B1, wherein flowing into the 7th passage
The accessing pending water of 107B1 and the 8th passage 108B1 separately flows into the clematis stem road 106B1 and second channel of flow-controlled device 1B1
102B1, wherein the second conductive channel 1026B1 for flowing into the accessing pending water Jing flow-controlled device 1B1 of clematis stem road 106B1 is flowed into
Second channel 102B1, Jing after then converging with the accessing pending water that second channel 102B1 is flowed into Jing the 8th passage 108B1
The second opening 302B1 of shell 30B1 flows out, and flows to water process element 91B, and the second of Jing water process element 91B
Open communication 9102B flows into liquid collecting element 912B, then flows into water process element 91B from liquid collecting element 912B, and instead
To the water process body 911B for rinsing water process element 91B, the first of the waste liquid Jing water process element 91B of generation after flushing
Open communication 9101B flows out, and the first opening 301B1 of the shell 30B1 of Jing flow-controlled device 1B1 flows into the first of flow-controlled device 1B1
Passage 101B1, then fourth lane 104B1 of the 9th passage 109B1 guiding inflow flow-controlled device 1B1 of Jing flow-controlled device 1B1, so
Flow out by the 4th opening 304B1 of shell 30B1, wherein flowing into the of the water Jing of third channel 103B1 shell 30B1
Three opening 303B1 are flowed out so that user is used;When the flow-controlled device 1B1 of the water treatment system is in three working positions, wait to locate
The first accommodating chamber 310B1 that the 7th opening 307B1 of the shell 30B1 that reason water passes through flow-controlled device 1B1 flows into shell 30B1 is simultaneously
Led by the first lead-through opening 1071B1 of the 7th passage 107B1 of flow-controlled device 1B1, the second of the 8th passage 108B1 respectively
Open up mouthful 1081B1 and third channel 103B1 flow into the 7th passage 107B1, the 8th passage 108B1 and third channel 103B1,
The accessing pending water for wherein flowing into the 7th passage 107B1 and the 8th passage 108B1 separately flows into the Five-channel of flow-controlled device 1B1
105B1 and first passage 101B1, wherein flowing into first conducting of accessing pending water Jing of Five-channel 105B1 flow-controlled device 1B1
Passage 1015B1 flows into first passage 101B1, then flows into treating for first passage 101B1 with the passage 108B1 of Jing the 8th
The first opening 301B1 outflows of Jing shell 30B1 after water converges are processed, and flows into first connection of water process element 91B and opened
Mouth 9101B, and the positive water process body 911B for rinsing water process element 91B, the waste liquid Jing produced after flushing liquid collecting unit
Part 912B flows to second open communication 9102B of water process element 91B, and Jing second open communications 9102B flow into the control
The second opening 302B1 of the shell 30B1 of stream device 1B1, then flow into the second channel 102B1 of flow-controlled device 1B1, then the Jing flow controls
Second conductive channel 1026B1 of device 1B1 flows into the clematis stem road 106B1 of flow-controlled device 1B1, then the 9th of Jing flow-controlled device 1B1
Fourth lane 104B1 of passage 109B1 pilot flow direction flow-controlled device 1B1, then Jing shells 30B1 the 4th opening 304B1 stream
Go out, wherein the 3rd opening 303B1 for flowing into the water Jing of third channel 103B1 shell 30B1 is flowed out so that user is used;
When the flow-controlled device 1B1 of the water treatment system is in four working positions, the shell 30B1's that accessing pending water passes through flow-controlled device 1B1
7th opening 307B1 flows into the first accommodating chamber 310B1 of shell 30B1 and respectively by the 7th passage of flow-controlled device 1B1
The second lead-through opening 1081B1 of the first lead-through opening 1071B1 and the 8th passage 108B1 of 107B1 flows into the 7th passage
107B1 and the 8th passage 108B1, subsequent accessing pending water separately flows into the second channel 102B1 and clematis stem road of flow-controlled device 1B1
106B1, wherein the second conductive channel 1026B1 for flowing into the accessing pending water Jing flow-controlled device 1B1 of clematis stem road 106B1 is flowed into
Second channel 102B1, Jing after then converging with the accessing pending water that second channel 102B1 is flowed into Jing the 7th passage 107B1
The second opening 302B1 of shell 30B1 flows out, and flows to water process element 91B, and the second of Jing water process element 91B
Open communication 9102B flows into liquid collecting element 912B, then flows into water process element 91B, and Jing from liquid collecting element 912B
The water process body 911B process of water process element 91B processed after water, water Jing water process element 91B after the process
First open communication 9101B flows out, and the first opening 301B1 of the shell 30B1 of Jing flow-controlled device 1B1 flows into flow-controlled device 1B1's
First passage 101B1, then first conductive channel 1015B1 of Jing flow-controlled device 1B1 flows into the Five-channel of flow-controlled device 1B1
105B1, then the third channel 103B1 of the 9th passage 109B1 guiding inflow flow-controlled device 1B1 of Jing flow-controlled device 1B1, and Jing should
The 3rd opening 303B1 of shell 30B1 is flowed out so that user is used.
Preferably, according to present pre-ferred embodiments flow-controlled device the 7th passage 107B and the 8th passage 108B phase mirror images pair
Claim, and the 7th passage 107B and the 8th passage 108B are connected with the first accommodating chamber, so that first accommodating chamber 310B
Interior water can simultaneously flow into the 7th passage 107B and the 8th passage 108B.That is, when the flow-controlled device is in the first work
When position, the second working position, the 3rd working position and four working positions, the current in first accommodating chamber 310B can simultaneously by this
Seven passage 107B and the 8th passage 108B, to increase of the Jing flow-controlled devices in the water unit interval in first accommodating chamber 310B
The discharge of one flow control element 10B.In addition, not only can be carried out to accessing pending water using the water treatment system of flow-controlled device of the present invention
Forward direction is processed, and can also be realized controlling current reverse flow and be carried out reverse process function to the accessing pending water.It is this to water at
Reason unit 90B positive treatment function and reverse treatment function be used alternatingly can improve the unit for treating water using effect
Rate and the service life for extending the unit for treating water.In addition, when user rotates the second flow control element 20B of the flow-controlled device to adjust
When saving it and being in different operating position, the first working position of the flow-controlled device, the second working position, the 3rd working position and the 4th working position
Adjust adjacent in action relationships, so that the flow-controlled device more conforms to the use habit of user and reduces the flow control
The service life carried out back rotation, extend flow-controlled device of the second flow control element during device use.Further, when the flow control
When device is in the second working position and three working positions, third channel 103B can provide the pending of unprocessed mistake to user
Water, so as to meet the use occasion that can not cut off the water in positive flushing or back flush unit for treating water 90B.
With reference to shown in Figure 78 A to Figure 81 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 14th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10C and one
Dynamicly located at the second flow control element 20C of first flow control element 10C, wherein the first flow control element 10C includes one first
Flow control body 11C, the first flow control body 11C include top ends 111C, and wherein top ends 111C form one first
Flow control face 100C;Second flow control element 20C includes that a second flow control body 21C, the second flow control body 21C have one
, from the upwardly extending high end 212C of bottom 211C, bottom 211C forms one second control for bottom 211C and one
Stream interface 200C;The wherein first flow control face 100C of first flow control element 10C be suitable to second flow control element 20C this second
Flow control face 200C contacts.
As shown in figure Figure 78 B to Figure 78 D of accompanying drawing, further, as shown in Figure 79 A to Figure 79 D of accompanying drawing, the flow-controlled device
The first flow control element 10C top ends 111C include the first central part 1111C, first edge portion 1112C and
Individual the first pars intermedia 1113C extended between the first central part 1111C and first edge portion 1112C, second flow control
The bottom 211C of element 20C extends in this including the second central part 2111C, a second edge portion 2112C and one
The second pars intermedia 2113C between second central part 2111C and second edge portion 2112C, the wherein flow-controlled device have one the
One passage 101C, second channel 102C, third channel 103C, fourth lane 104C, the 7th passage
107C and the 9th passage 109C, wherein first passage 101C, second channel 102C, third channel 103C and fourth lane
104C is respectively arranged on the first flow control body 11C of first flow control element 10C;7th passage 107C and the 9th passage 109C point
She Yu not second flow control body 21C, wherein first passage 101C, second channel 102C, third channel 103C and four-way
First flow control face 100Cs of the road 104C respectively from the first flow control body 11C of first flow control element 10C is extended downwardly;Wherein should
7th passage 107C upwardly extend from the second flow control face 200C of the bottom 211C of second flow control body 21C and from this second
The second pars intermedia 2113C of the bottom 211C of flow control body 21C stretches out and forms one and is connected with space outerpace all the time
The first logical lead-through opening 1071C;Second flow controls of the 9th passage 109C from the bottom 211C of second flow control body 21C
Face 200C extends upwardly to the high end 212C of the second flow control body 21C of second flow control element 20C.In other words, this
The first lead-through opening 1071C of seven passage 107C can keep the 7th passage 107C all the time with space outerpace, especially with flow control
The space outerpace of device is connected.Preferably, the first passage 101C of the flow-controlled device, second channel 102C, third channel 103C and
First pars intermedia 1113C of fourth lane 104C respectively from top ends 111C of first flow control body 11C extends out to this
First edge portion 1112C of top ends 111C;7th passage 107C of the flow-controlled device from second flow control element 20C
The second pars intermedia 2113C of the bottom 211C of two flow control body 21C stretches out;9th passage 109C of the flow-controlled device certainly should
The second pars intermedia 2113C of the bottom 211C of the second flow control body 21C of the second flow control element 20C extends out to the bottom
The second edge portion 2112C of portion 211C.
As shown in Figure 80 A to Figure 80 D of accompanying drawing, the second flow control element 20C can be rotated relative to the first flow control element 10C
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 107C of flow-controlled device is connected with first passage 101C, control
9th passage 109C of stream device is connected respectively with second channel 102C and third channel 103C;When flow-controlled device is in the second work
Position when, the 7th passage 107C of flow-controlled device is connected with second channel 102C, the 9th passage 109C respectively with first passage 101C
It is connected with fourth lane 104C;When flow-controlled device is in three working positions, the 7th passage 107C of flow-controlled device and first passage
101C is connected, and the 9th passage 109C of flow-controlled device is connected respectively with second channel 102C with fourth lane 104C;Work as flow control
When device is in four working positions, the 7th passage 107C of flow-controlled device is connected with third channel 103C.
Preferably, when flow-controlled device is in four working positions, the 9th passage 109C and the fourth lane 104C phase of flow-controlled device
Connection.
It is highly preferred that when flow-controlled device is in the first working position, fourth lane 104C of the flow-controlled device is by the second flow control unit
The second flow control body 21C obstructions of part 20C, the second flow control body 21C of second flow control element 20C is respectively by the second channel
The upper outer spaced apart of 102C and third channel 103C and the flow-controlled device;When flow-controlled device is in the second working position,
The third channel 103C of the flow-controlled device is blocked by the second flow control body 21C of the second flow control element 20C, the second flow control element
The second flow control body 21C of 20C is respectively by first passage 101C and the upper outer of fourth lane 104C and the flow-controlled device
Spaced apart;When flow-controlled device is in three working positions, the third channel 103C of the flow-controlled device is by the second flow control element 20C's
Second flow control body 21C blocks, the second flow control body 21C of second flow control element 20C respectively by second channel 102C and
The upper outer spaced apart of fourth lane 104C and the flow-controlled device;When flow-controlled device is in four working positions, the flow control
The first passage 101C and second channel 102C of device is blocked by the second flow control body 21C of the second flow control element 20C, second control
The second flow control body 21C of fluid element 20C is by the upper outer spaced apart of fourth lane 104C and the flow-controlled device.It is worth
It is to be noted that the first passage 101C of the flow-controlled device, second channel 102C, third channel 103C and fourth lane 104C difference phase
Mutually separatedly located at the first flow control body 11C of the first flow control element;7th passage 107C and the 9th passage 109C point
Be not spaced from each other located at second flow control element 20C the second flow control body 21C.
As shown in Figure 79 A to Figure 79 D of accompanying drawing, the first flow control face 100C of the first flow control element 10C of the flow-controlled device and
The second flow control face 200C of the second flow control element 20C is circle, the first passage 101C of the flow-controlled device, fourth lane 104C,
Second channel 102C and third channel 103C is deasil arranged in the first flow control sheet of first flow control element 10C with this order
Body 11C;The 7th passage 107C and the 9th passage 109C of the flow-controlled device is deasil arranged in the second flow control unit with this order
The second flow control body 21C of part 20C.Alternatively, the flow-controlled device sets first passage 101C, fourth lane 104C, second channel
102C and third channel 103C can also this order be widdershins arranged in the first flow control body of first flow control element 10C
11C;Simultaneously the 7th passage 107C and the 9th passage 109C of the flow-controlled device is widdershins arranged in second flow control with this order
The second flow control body 21C of element 20C.
Preferably, first passage 101C, fourth lane 104C, second channel 102C and third channel 103C be radially
Located at the first flow control face 100C of first flow control element 10C, and the 7th passage 107C and the 9th passage 109C are radially
Located at the second flow control face 200C of second flow control element 20C.
It is highly preferred that first passage 101C is extended downwardly from the first flow control face 100C of first flow control element 10C;Should
Second channel 102C is extended downwardly from the first flow control face 100C of first flow control element 10C;Third channel 103C from this
The first flow control face 100C of one flow control element 10C is extended downwardly and stretched out and fourth lane 104C is from first flow control unit
The first flow control face 100C of part 10C is extended downwardly and stretched out.Further, second flow control of second flow control element 20C
The shapes and sizes of face 200C are designed according to the first flow control face 100C of first flow control element 10C, so that second flow control
The second flow control face 200C of element 20C is suitable to the first flow control face 100C located at first flow control element 10C, and in second control
Fluid element 20C relative to the first flow control element 10C rotate when, adjust located at first flow control element 10C the first flow control body 11C
First passage 101C, fourth lane 104C, second channel 102C and third channel 103C respectively with located at second flow control unit
The connection of the 7th passage 107C and the 9th passage 109C of the second flow control body 21C of part 20C, to control current in present invention control
Flow in the different passages of stream device.
As shown in accompanying drawing 79A to Figure 79 D, the first flow control face 100C of the first flow control element 10C of the flow-controlled device has one
Core 1000C shown in individual figure chain lines, wherein core 1000C located at first flow control element 10C the
Second control of the first central part 1111C of top ends 111C of one flow control body 11C, the second flow control element 20C of the flow-controlled device
Stream interface 200C has the central area 2000C shown in a figure chain lines, and wherein central area 2000C is located at second control
First control of the second central part 2111C of the bottom 211C of the second flow control body 21C of fluid element 20C, the wherein flow-controlled device
The core 1000C of the first flow control face 100C of fluid element 10C is provided with first nodal point 1110C, and second flow control
The central area 2000C of the second flow control face 200C of element 20C is provided with a second central point 2110C, wherein first flow control
Part outside the core 1000C of face 100C can be suitable by the first blueline 10002C through first nodal point 1110C
Hour hands be divided into a Part I 1001C shown in chain-dotted line, Part II 1002C, Part III 1003C, one
Individual Part IV 1004C, a Part V 1005C and a Part VI 1006C;The center of second flow control face 200C
Part outside the 2000C of domain can clockwise be divided into chain-dotted line by the second blueline 20002C through second central point 2110C
A shown first area 2001C, second area 2002C, the 3rd region 2003C, the 4th region
2004C, a 5th region 2005C and a 6th region 2006C;The wherein first flow control face of the first flow control element 10C
Central angle alpha 1C that every adjacent two blueline 10002C of 100C are formed is equal in magnitude;Second control of second flow control element 20C
Central angle alpha 2C that every adjacent two blueline 20002C of stream interface 200C are formed is equal in magnitude, and wherein first passage 101C is certainly
The Part I 1001C and Part II 1002C of the first flow control face 100C is extended downwardly;Second channel 102C is from first control
The Part V 1005C of the first flow control face 100C of fluid element 10C is extended downwardly;Third channel 103C is from the first flow control face
The Part VI 1006C of 100C is extended downwardly;Part III 1003C and of fourth lane 104C from the first flow control face 100C
Four part 1004C are extended downwardly;7th passage 107C is upwardly extended from the first area 2001C of second flow control face 200C;
9th passage 109C is upwardly extended from the 4th region 2004C and the 5th region 2005C of second flow control face 200C.
As shown in Figure 78 B and Figure 81 of accompanying drawing, according to the flow-controlled device of the 14th preferred embodiment of the invention one is further included
Individual shell 30C, and the first flow control body 11C of first flow control element 10C of the flow-controlled device further includes one from the top
End portion 112C that end 111C is extended downwardly, wherein shell 30C include an outer cover body 31C, the wherein outer cover body
31C outwardly and upwardly extends and encloses and is set as one from end portion 112C of the first flow control body 11C of first flow control element 10C
First accommodating chamber 310C, so that outer cover body 31C is formed with a medial wall 311C, a lateral wall 312C and one
First lead-through opening of opening up upper end open 3101C, wherein the first accommodating chamber 310C and the 7th passage 107C
1071C is connected, and wherein second flow control element 20C is suitable to the second flow control face 200C and is located at first accommodating chamber 310C facing downward
And located at the first flow control face 100C of first flow control element 10C.Preferably, the first passage 101C of the flow-controlled device and this second
Passage 102C is extended downwardly and through first flow control element 10C's from the first flow control face 100C of first flow control element 10C
End portion 112C of the first flow control body 11C.Preferably, when the flow-controlled device is in four working positions, the second of the flow-controlled device
The second flow control body 21C of flow control element 20C is by the first of fourth lane 104C and the first flow control element 10C of the flow-controlled device
The first accommodating chamber 310C of flow control body 11C is spaced.
It should be noted that shell 30C has one the 3rd opening 303C, the 4th opening 304C and the 7th
Opening 307C, the wherein the 3rd opening 303C is connected with third channel 103C, the 4th opening 304C and fourth lane 104C
It is connected, the 7th opening 307C is connected with first accommodating chamber 310C.In other words, third channel 103C is from first control
The first flow control face 100C of fluid element 10C extend downwardly and the first flow control body 11C from first flow control element 10C low side
Portion 112C stretches out to be connected with the 3rd opening 303C;Fourth lane 104C from first flow control element 10C
One flow control face 100C is extended downwardly and from end portion 112C of the first flow control body 11C of first flow control element 10C to extension
Stretch to be connected with the 4th opening 304C.Preferably, the end portion of the first flow control body 11C of first flow control element 10C
112C is integrally formed with the medial wall 311C of the outer cover body 31C of shell 30C.It is highly preferred that the 3rd opening 303C, the 4th
The opening 307C of opening 304C and the 7th are respectively arranged on the outer cover body 31C of shell 30C.
It should be understood that when the flow-controlled device is in first working position, second flow control of second flow control element 20C
Body 21C is respectively by first receiving of the shell 30C of second channel 102C and third channel 103C and the flow-controlled device
Room 310C is spaced;When the flow-controlled device is in second working position, the second flow control body 21C of second flow control element 20C
Respectively by the first accommodating chamber 310C phases of first passage 101C and fourth lane 104C and the shell 30C of the flow-controlled device
Separate;When the flow-controlled device is in three working positions, the second flow control body 21C of second flow control element 20C respectively should
Second channel 102C and fourth lane 104C are spaced with first accommodating chamber 310C of the shell 30C of the flow-controlled device;When
When the flow-controlled device is in four working positions, the second flow control body 21C of second flow control element 20C is by fourth lane 104C
It is spaced with first accommodating chamber 310C of the shell 30C of the flow-controlled device.
As shown in Figure 78 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10C
With the anti-wear component 40C between the second flow control element 20C, wherein anti-wear component 40C have a wear-resisting body 41C, wherein
The wear-resisting body 41C has a wearing face for being suitable to be contacted with the second flow control face 200C of second flow control body 21C
410C, wherein wearing face 410C through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20C
Body 21C relative to the first flow control body 11C of first flow control element 10C rotate when produced frictional force, so as to extend the control
The service life of stream device.Further, the first flow control element 10C of the size and shape of anti-wear component 40C and the flow-controlled device
The first flow control face 100C it is corresponding and wear-resisting body 41C of anti-wear component 40C is formed with one first and connects with being spaced from each other
Mouth 401C, second interface 402C, wherein a 3rd interface 403C and a 4th interface 404C, the first interface
401C, second interface 402C, the shape and size of the 3rd interface 403C and the 4th interface 404C are respectively with the first of the flow-controlled device
Passage 101C, second channel 102C, third channel 103C are corresponding with fourth lane 104C.Preferably, as anti-wear component 40C
When between the first flow control element 10C and second flow control element 20C of the flow-controlled device, anti-wear component 40C does not occur
Relative to the rotation of the first flow control body 11C of first flow control element 10C.It is highly preferred that anti-wear component 40C has a Jing
Smoothing processing is reducing the wearing face 410C of its degree of roughness.Most preferably, first interface of anti-wear component 40C
401C, second interface 402C, the 3rd interface 403C and the 4th interface 404C are respectively up and down through wear-resisting of anti-wear component 40C
Body 41C, so that when the first of relative first flow control element 10C of the second flow control body 21C of second flow control element 20C
When flow control body 11C is rotated, the first interface 401C of anti-wear component 40C, second interface 402C, the 3rd interface 403C and the
Four interface 404C respectively selectively by located at first flow control element 10C the first flow control body 11C first passage 101C,
Second channel 102C, third channel 103C and fourth lane 104C and the second flow control sheet located at second flow control element 20C
The 7th passage 107C of body 21C and the 9th passage 109C are connected.
As shown in Figure 78 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20C
Upwardly extending driving elements 60C of body 21C and one wherein should from the upwardly extending potted component 70C of driving element 60C
Driving element 60C is suitable to the second flow control body 21C of the second flow control element 20C for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11C of part 10C rotates;Wherein potted component 70C is suitable to the medial wall 311C located at shell 30C
To seal first accommodating chamber 310C, so as to prevent the fluid in first accommodating chamber 310C from the upper of first accommodating chamber 310C
End opening 3101C flows out.Preferably, potted component 70C contacts with driving element 60C and is suitable to the driving element
60C is held in place by, so as to the second flow control body 21C for keeping second flow control element 20C is in appropriate location.
As shown in Figure 78 E to Figure 78 F of accompanying drawing, the outer cover body 31C of the shell 30C of the flow-controlled device is from the first flow control unit
End portion 112C of the first flow control body 11C of part 10C is extended downwardly and enclosed and is set as a second accommodating chamber 320C, wherein this
Two accommodating chamber 320C are located at the lower section of end portion 112C of the first flow control body 11C of first flow control element 10C.As accompanying drawing it
Shown in Figure 78 F, flow-controlled device of the present invention further includes a flow blocking element 80C located at second accommodating chamber 320C, wherein should
Flow blocking element 80C is extended downwardly from first flow control body 11C, the medial wall of the wherein flow blocking element 80C and shell 30C
311C forms first be located between the medial wall 311C of the outer cover body 31C of the flow blocking element 80C and shell 30C and leads
Flow chamber 801C, flow blocking element 80C encloses and is set as a second diversion chamber 802C, and the wherein first passage 101C of the flow-controlled device certainly should
The first flow control face 100C of the first flow control element 10C is extended downwardly, and is connected with first diversion chamber 801C;The flow-controlled device
Second channel 102C extend downwardly from the first flow control face 100C of first flow control element 10C and with the second diversion chamber 802C phases
Connection.Preferably, the first passage 101C of the flow-controlled device is extended downwardly from the first flow control face 100C of first flow control element 10C
And through first flow control element 10C the first flow control body 11C end portion 112C being connected with first diversion chamber 801C
It is logical;The second channel 102C of the flow-controlled device is extended downwardly and through this from the first flow control face 100C of first flow control element 10C
End portion 112C of the first flow control body 11C of the first flow control element 10C with second diversion chamber 802C being connected.
Figure 78 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30C for implementing flow-controlled device further has 301C and one second opening 302C of one first opening, the wherein flow-controlled device
First passage 101C extend downwardly from the first flow control face 100C of first flow control element 10C and from the first flow control element
End portion 112C of the first flow control body 11C of 10C stretches out to be connected with first opening 301C;The second channel
102C is extended downwardly from the first flow control face 100C of first flow control element 10C and controlled from the first of first flow control element 10C
End portion 112C of stream body 11C stretches out to be connected with second opening 302C;Third channel 103C from this first
The first flow control face 100C of flow control element 10C is extended downwardly and from the low of the first flow control body 11C of first flow control element 10C
End 112C stretches out to be connected with the 3rd opening 303C;With fourth lane 104C from first flow control element 10C
The first flow control face 100C extend downwardly and from end portion 112C of the first flow control body 11C of first flow control element 10C to
It is outer to extend to be connected with the 4th opening 304C;The first accommodating chamber 310C is connected with the 7th opening 307C.Preferably,
The inner side of end portion 112C of the first flow control body 11C of first flow control element 10C and the outer cover body 31C of shell 30C
Wall 311C is integrally formed.It is highly preferred that first opening 301C, the second opening 302C, the 3rd opening 303C, the 4th opening 304C
With the outer cover body 31C that the 7th opening 307C is respectively arranged on shell 30C.
It should be noted that when this is optional implement flow-controlled device shell 30C have the first opening 301C and this second open
Mouthful 302C, and the first passage 101C of the flow-controlled device is connected with first 301C that is open;Second channel 102C with this second
When opening 302C is connected, the flow-controlled device will not need the flow blocking element 80C of the flow-controlled device of present pre-ferred embodiments.
Figure 81 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1C and at least one water treatment facilities, such as unit for treating water 90C, wherein unit for treating water 90C is applied to
Accessing pending water is processed, wherein unit for treating water 90C is connected with flow-controlled device 1C.
As shown in Figure 81 of accompanying drawing, according to the unit for treating water 90C of the 14th preferred embodiment of the invention a water is included
Treatment element 91C, wherein water process element 91C have first open communication 9101C and second open communication
9102C, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91C from unit for treating water 90C
Opening 9101C flow into the water process element 91C and Jing the water process element 91C process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102C of water process element 91C flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91C can be flowed into from second open communication 9102C of the water process element 91C of unit for treating water 90C, and
Water after being processed Jing after water process element 91C process, and the first open communication 9101C stream from water process element 91C
Go out.
It should be noted that first diversion chamber 801C is suitable to connect with the first of the water process element 91C of the water treatment system
Open up a mouthful 9101C to be connected, and second diversion chamber 802C is suitable to the second open communication 9102C with water process element 91C
It is connected, so that first diversion chamber 801C is suitable to connect out first passage 101C with the first of the water process element
Mouth 9101C is connected, and second diversion chamber 802C is suitable to second company of second channel 102C and water process element 91C
Open up a mouthful 9102C to be connected.As shown in Figure 81 of accompanying drawing, according to the unit for treating water 90C of the 14th preferred embodiment of the invention
Water process element 91C include an a water process body 911C and liquid collecting element 912C, wherein water process element 91C's
First open communication 9101C and the second open communication 9102C are separated by respectively turns up the soil located at water process body 911C, wherein should
Liquid collecting element 912C extends in the water process body 911C and to the second open communication 9102C direction, and with this second
Open communication 9102C is connected, and wherein accessing pending water is suitable to first open communication 9101C by water process element 91C
Water process element 91C is flowed into, and after being processed after the water process body 911C of water process element 91C process
Water is suitable to flow to the liquid collecting element 912C and flows out from liquid collecting element 912C after water, the wherein process.In other words, it is pending
Water is suitable to flow into the water process element 91C and Jing water process element from first open communication 9101C of water process element 91C
The water process body 911C process of 91C, with water after being processed, the current direction liquid collecting element 912C and Jing should wherein after the process
After liquid collecting element 912C is concentrated, Jing second open communications 9102C flow out.Preferably, liquid collecting element 912C is with a pipe
Shape structure.It is highly preferred that the water process element 91C for making unit for treating water 90C includes the material of a water process body 911C
Containing at least one material for water treatment in material, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 81 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1C of water treatment system is in the first working position, the 7th of the shell 30C that accessing pending water passes through flow-controlled device 1C opens
First conducting of the 7th passage 107C that mouth 307C flows into the first accommodating chamber 310C of shell 30C and passes through flow-controlled device 1C is opened
Mouthful 1071C flows into the 7th passage 107C, and subsequent accessing pending water flows into the first passage 101C of flow-controlled device 1C, and the Jing flow controls
The first diversion chamber 801C of device 1C flows to first open communication 9101C of water process element 91C, and the open communications of Jing first
9101C flows into the water process element 91C and the water Jing after the water process body 911C process of water process element 91C is processed,
Water Jing liquid collectings element 912C flows to second open communication 9102C of water process element 91C wherein after the process, and then Jing should
Second open communication 9102C flows to the second diversion chamber 802C of flow-controlled device 1C, and the second diversion chamber of Jing 802C inflows should with after
The second channel 102C of flow-controlled device 1C, then the threeway of the 9th passage 109C guiding inflow flow-controlled device 1C of Jing flow-controlled device 1C
Road 103C, and the 3rd opening 303C of Jing shell 30C flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1C is in the second working position, the 7th opening 307C of the shell 30C that accessing pending water passes through flow-controlled device 1C flows into the shell
The first lead-through opening 1071C of the first accommodating chamber 310C of 30C and the 7th passage 107C for passing through flow-controlled device 1C flow into this
Seven passage 107C, subsequent accessing pending water flows into the second channel 102C of flow-controlled device 1C, second diversion chamber of Jing flow-controlled device 1C
802C flows to water process element 91C, and second open communication 9102C of Jing water process element 91C flows into the liquid collecting element
912C, then flows at water process element 91C, and the water of back flush water process element 91C from liquid collecting element 912C
First open communication 9101C of reason body 911C, the waste liquid Jing water process element 91C produced after flushing flows out, subsequently Jing
The first diversion chamber 801C of flow-controlled device 1C flows into the first passage 101C of flow-controlled device 1C, and the 9th of Jing flow-controlled device 1C is led to
109C guiding in road flows through fourth lane 104C of flow-controlled device 1C, and then the 4th opening 304C of Jing shells 30C flows out;When this
When the flow-controlled device 1C of water treatment system is in three working positions, the 7th of the shell 30C that accessing pending water passes through flow-controlled device 1C opens
Mouth 307C flows into the first accommodating chamber 310C of shell 30C, and first conducting of the 7th passage 107C for passing through flow-controlled device 1C
Opening 1071C flows into the 7th passage 107C, and subsequent accessing pending water flows into the first passage 101C of flow-controlled device 1C, the Jing flow controls
The first diversion chamber 801C of device 1C flows into first open communication 9101C of water process element 91C, and positive flushing water process
The water process body 911C of element 91C, the waste liquid Jing liquid collecting element 912C produced after flushing flow to water process element 91C's
Second open communication 9102C, and Jing second open communications 9102C flow into the second diversion chamber 802C of flow-controlled device 1C, then
Jing second diversion chamber 802C flows into the second channel 102C of flow-controlled device 1C, then the 9th passage 109C of Jing flow-controlled device 1C draws
Fourth lane 104C from water conservancy diversion to flow-controlled device 1C, then Jing shells 30C the 4th opening 304C flow out.When the water process system
When the flow-controlled device 1C of system is in four working positions, the 7th opening 307C streams of the shell 30C that accessing pending water passes through flow-controlled device 1C
Enter the first accommodating chamber 310C of shell 30C, and the first lead-through opening 1071C of the 7th passage 107C by flow-controlled device 1C
Flow into the 7th passage 107C, subsequent accessing pending water flows into the third channel 103C of flow-controlled device 1C, the 3rd of Jing shell 30C the
Opening 303C is flowed out so that user is used, and the first passage 101C and second channel 102C of the flow-controlled device is by flow-controlled device 1C's
The second flow control body 21C obstructions of the second flow control element 20C, in other words, the water process element 91C and first accommodating chamber
310C is isolated.
It is understood that when further there is the shell 30C of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening 302C that the first opening 301C and that road 101C is connected is connected with the second channel 102C of the flow-controlled device
When, first open communication 9101C of the water process element 91C of the unit for treating water 90C of the water treatment system be suitable to this first
Opening 301C is connected, and second open communication of the water process element 91C of the unit for treating water 90C of the water treatment system
9102C is suitable to be connected with second opening 302C.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
The 3rd opening 303C of the shell 30C of stream device flows out, so that user is used;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 91C of the accessing pending water to the water treatment system
Carry out back flush, and the waste water that obtains of back flush is suitable to the 4th of the shell 30C of the flow-controlled device from the water treatment system
Opening flows out;When user adjusts flow-controlled device of the present invention is in three working positions, water treatment system of the present invention is suitable to adjust
The accessing pending water carries out positive flushing to the water process element 91C of the water treatment system, and the positive waste water for obtaining that rinses is suitable to
Flow out from the 4th opening 304C of the shell 30C of the flow-controlled device of the water treatment system;When user adjusts flow-controlled device of the present invention
When being in four working positions, water treatment system of the present invention is suitable to adjust the accessing pending water from the shell 30C of the flow-controlled device the
Three opening 303C flow out, so that user is used, simultaneously because the first accommodating chamber 310C of water process element 91C and the flow-controlled device
Be isolated, in order to user in the state of not cutting off the water more change water to process element 91C.Therefore, when the water of flow-controlled device of the present invention
When processing system is in the first working position, the water treatment system can be processed accessing pending water and provided after process for user
Water, in the second working position, the water treatment system can use accessing pending water back flush water process element 91C, in the 3rd work
During position, the water treatment system can be using accessing pending water forward direction flushing water treatment element 91C, in four working positions, the water process
Advantageously more change water to process element 91C is enabled a user to while system sustainable supply accessing pending water, in addition, at this
In bright flow-controlled device, for discharge back flush or it is positive rinse after waste water fourth lane 104C flow path cross sectional product according to
In the first passage 101C designs that accessing pending water is flowed into, this design is particularly suitable for requiring the use field of high flux flushing
Close.
With reference to shown in Figure 82 A to Figure 85 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 15th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10D and one
Dynamicly located at the second flow control element 20D of first flow control element 10D, wherein the first flow control element 10D includes one first
Flow control body 11D, the first flow control body 11D include top ends 111D, and wherein top ends 111D form one first
Flow control face 100D;Second flow control element 20D includes that a second flow control body 21D, the second flow control body 21D have one
, from the upwardly extending high end 212D of bottom 211D, bottom 211D forms one second control for bottom 211D and one
Stream interface 200D;The wherein first flow control face 100D of first flow control element 10D be suitable to second flow control element 20D this second
Flow control face 200D contacts.
As shown in Figure 82 B to Figure 82 D of accompanying drawing, further, as shown in Figure 83 A to Figure 83 D of accompanying drawing, the flow-controlled device
Top ends 111D of the first flow control element 10D include a first central part 1111D, first edge portion 1112D and one
The first pars intermedia 1113D between the first central part 1111D and first edge portion 1112D is extended in, the second flow control unit
The bottom 211D of part 20D 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 body 11D of first flow control element 10D;7th passage 107D and the 9th passage 109D 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 body 11D of first flow control element 10D is extended downwardly;Wherein this
Seven passage 107D are upwardly extended and from second control from the second flow control face 200D of the bottom 211D of second flow control body 21D
The second pars intermedia 2113D of the bottom 211D of stream body 21D stretches out and forms one and is connected with space outerpace all the time
The first lead-through opening 1071D;9th passage 109D is from the second flow control face of the bottom 211D of second flow control body 21D
200D extends upwardly to the high end 212D of the second flow control body 21D of second flow control element 20D.In other words, the 7th
The first lead-through opening 1071D of passage 107D can keep the 7th passage 107D all the time with space outerpace, especially with flow-controlled device
Space outerpace be connected.Preferably, the first passage 101D of the flow-controlled device, second channel 102D and fourth lane 104D are distinguished
Being somebody's turn to do for top ends 111D is extended to from the first pars intermedia 1113D of top ends 111D of first flow control body 11D is inwardly outer
First central part 1111D;First pars intermedias of the third channel 103D from top ends 111D of first flow control body 11D
1113D extends inwardly to the first central part 1111D of top ends 111D and extends out to first edge portion 1112D;
7th passage 107D of the flow-controlled device from the bottom 211D of the second flow control body 21D of second flow control element 20D
Two pars intermedia 2113D stretch out;Second flow control bodies of the 9th passage 109D of the flow-controlled device from second flow control element 20D
The second pars intermedia 2113D of the bottom 211D of 21D extends out to the second edge portion 2112D of bottom 211D.
As shown in Figure 84 A to Figure 84 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 respectively with second channel 102D and third channel 103D;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
The upper outer space of flow control body 11D 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 respectively with second channel 102D with fourth lane 104D
It is logical, outside the top of the first flow control body 11D of the third channel 103D of the flow-controlled device and the first flow control element 10D of the flow-controlled device
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, 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 body 21D of second flow control element 20D respectively by second channel 102D and this
The upper outer spaced apart of triple channel 103D and the flow-controlled device;When flow-controlled device is in the second working position, second flow control
The second flow control body 21D of element 20D is respectively by first passage 101D and the top of fourth lane 104D and the flow-controlled device
Space outerpace is spaced;When flow-controlled device is in three working positions, the second flow control body 21D point of second flow control element 20D
Not by second channel 102D and the upper outer spaced apart of fourth lane 104D and 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 is respectively by the second of the second flow control element 20D
Flow control body 21D blocks, and the second flow control body 21D of second flow control element 20D is by fourth lane 104D and the flow-controlled device
Upper outer spaced apart.
As shown in Figure 83 A to Figure 83 D of accompanying drawing, the first of top ends 111D of the first flow control element 10D of the flow-controlled device
Central part 1111D has first nodal point 1110D, second central part of the bottom 211D of second flow control element 20D
2111D has a second central point 2110D, the wherein bottom of the second flow control body 21D of second flow control element 20D
There is the second edge portion 2112D of 211D an outward flange 21121D, the third channel 103D of the flow-controlled device to have 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
The ultimate range of the third channel edge 1031D of first nodal point 1110D of 1111D to third channel 103D is L1D, and this
The second edge portion of the second central point 2110D of two central part 2111D to the bottom 211D of second flow control element 20D
The ultimate range of the outward flange 21121D of 2112D is L2D, and the wherein L1D is more than the L2D.
As shown in Figure 83 A to Figure 83 D of accompanying drawing, the second flow control body 21D of second flow control element 20D is further included
One extension 213D, the 9th passage 109D have a 9th channel edge 1091D, wherein extension 213D from this
The high end 212D of two flow control body 21D stretches out and extends downward the 9th channel edge of the 9th passage 109D
1091D, and causing when the flow-controlled device is in the first working position, the second flow control body 21D of second flow control element 20D can be by
The upper outer spaced apart of third channel 103D and the flow-controlled device.Preferably, the 9th passage 109D energy of the flow-controlled device
Enough extension 213D that second flow control element 20D is extended out to from the second edge portion 2112D of bottom 211D.Value
It is to be noted that the first passage 101D of the flow-controlled device, second channel 102D, third channel 103D and fourth lane 104D difference
Be spaced from each other located at the first flow control element the first flow control body 11D;7th passage 107D and the 9th passage 109D
Be spaced from each other respectively located at second flow control element 20D the second flow control body 21D.
As shown in Figure 83 A to Figure 83 D of accompanying drawing, the first flow control face 100D of the first flow control element 10D of the flow-controlled device and
The second flow control face 200D of the second flow control element 20D 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 first flow control of first flow control element 10D with this order
Body 11D;The 7th passage 107D and the 9th passage 109D of the flow-controlled device is deasil arranged in second flow control with this order
The second flow control body 21D of element 20D.Alternatively, the flow-controlled device sets first passage 101D, fourth lane 104D, second are led to
Road 102D and third channel 103D can also this order be widdershins arranged in the first flow control body of first flow control element 10D
11D;Simultaneously the 7th passage 107D and the 9th passage 109D of the flow-controlled device is widdershins arranged in second flow control with this order
The second flow control body 21D of element 20D.
Preferably, first passage 101D, fourth lane 104D, second channel 102D and third channel 103D be radially
Located at the first flow control face 100D of first flow control element 10D, and the 7th passage 107D and the 9th passage 109D are radially
Located at the second flow control face 200D of second flow control element 20D.
It is highly preferred that first passage 101D is extended downwardly from the first flow control face 100D of first flow control element 10D;Should
Second channel 102D is extended downwardly from the first flow control face 100D of first flow control element 10D;Third channel 103D from this
The first flow control face 100D of one flow control element 10D is extended downwardly and stretched out and fourth lane 104D is from first flow control unit
The first flow control face 100D of part 10D is extended downwardly and stretched out.Further, second flow control of second flow control element 20D
The shapes and sizes of face 200D according to first flow control element 10D the first flow control face 100D design shaping so that this second
The second flow control face 200D of flow control element 20D is suitable to the first flow control face 100D located at first flow control element 10D, and this
Two flow control element 20D relative to the first flow control element 10D rotate when, adjust located at first flow control element 10D the first flow control sheet
First passage 101D, fourth lane 104D, the second channel 102D and third channel 103D of body 11D respectively with located at this second control
The connection of the 7th passage 107D and the 9th passage 109D of the second flow control body 21D of fluid element 20D, to control current at this
Flow in the different passages of bright flow-controlled device.
As shown in accompanying drawing 83A to Figure 83 D, the first flow control face 100D of the first flow control element 10D of the flow-controlled device has one
Core 1000D shown in individual figure chain lines, wherein core 1000D located at first flow control element 10D the
Second control of the first central part 1111D of top ends 111D of one flow control body 11D, the second flow control element 20D of the flow-controlled device
Stream interface 200D has the central area 2000D shown in a figure chain lines, and wherein central area 2000D is located at second control
First control of the second central part 2111D of the bottom 211D of the second flow control body 21D of fluid element 20D, the wherein flow-controlled device
The core 1000D of the first flow control face 100D of fluid element 10D is provided with first nodal point 1110D, and second flow control
The central area 2000D of the second flow control face 200D of element 20D is provided with a second central point 2110D, wherein first flow control
Part outside the core 1000D of face 100D can be suitable by the first blueline 10002D through first nodal point 1110D
Hour hands be divided into a Part I 1001D shown in chain-dotted line, Part II 1002D, Part III 1003D, one
Individual Part IV 1004D, a Part V 1005D and a Part VI 1006D;The center of second flow control face 200D
Part outside the 2000D of domain can clockwise be divided into chain-dotted line by the second blueline 20002D through second central point 2110D
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;The wherein first flow control face of the first flow control element 10D
Central angle alpha 1D that every adjacent two blueline 10002D of 100D are formed is equal in magnitude;Second control of second flow control element 20D
Central angle alpha 2D that every adjacent two blueline 20002D of stream interface 200D are formed is equal in magnitude, and wherein first passage 101D is certainly
The Part I 1001D and Part II 1002D of the first flow control face 100D is extended downwardly;Second channel 102D is from first control
The Part V 1005D of the first flow control face 100D of fluid element 10D is extended downwardly;Third channel 103D is from the first flow control face
The Part VI 1006D of 100D is extended downwardly;Part III 1003D and of fourth lane 104D from the first flow control face 100D
Four part 1004D are extended downwardly;7th passage 107D is upwardly extended from the first area 2001D of second flow control face 200D;
9th passage 109D is upwardly extended from the 4th region 2004D and the 5th region 2005D of second flow control face 200D.
As shown in Figure 82 B and Figure 85 of accompanying drawing, according to the flow-controlled device of the 15th preferred embodiment of the invention one is further included
Individual shell 30D, and the first flow control body 11D of first flow control element 10D of the flow-controlled device further includes one from the top
End portion 112D that end 111D is extended downwardly, wherein shell 30D include an outer cover body 31D, the wherein outer cover body
31D outwardly and upwardly extends and encloses and is set as one from end portion 112D of the first flow control body 11D of first flow control element 10D
First accommodating chamber 310D, so that outer cover body 31D is formed with a medial wall 311D, a lateral wall 312D and one
First lead-through opening of opening up upper end open 3101D, wherein the first accommodating chamber 310D and the 7th passage 107D
1071D is connected, and wherein second flow control element 20D is suitable to the second flow control face 200D and is located at first accommodating chamber 310D facing downward
And located at the first flow control face 100D of first flow control element 10D.Preferably, the first passage 101D of the flow-controlled device and this second
Passage 102D is extended downwardly and through first flow control element 10D's from the first flow control face 100D of first flow control element 10D
End portion 112D of the first flow control body 11D.
As shown in Figure 82 B of accompanying drawing, further, shell 30D has one the 3rd opening 303D, the 4th opening
304D and one the 7th opening 307D, 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 face 100D of first flow control element 10D and controlled from the first of first flow control element 10D
End portion 112D of stream body 11D stretches out to be connected with the 3rd opening 303D;Fourth lane 104D from this first
The first flow control face 100D of flow control element 10D is extended downwardly and from the low of the first flow control body 11D of first flow control element 10D
End 112D stretches out to be connected with the 4th opening 304D.Preferably, the first flow control sheet of first flow control element 10D
End portion 112D of body 11D is integrally formed with the medial wall 311D of the outer cover body 31D of shell 30D.It is highly preferred that the 3rd
Opening 303D, the 4th opening 304D and the 7th opening 307D are respectively arranged on the outer cover body 31D of shell 30D.
It should be understood that when the flow-controlled device is in first working position, second flow control of second flow control element 20D
Body 21D is respectively by first receiving of the shell 30D of second channel 102D and third channel 103D and the flow-controlled device
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 body 21D of second flow control element 20D respectively by first passage 101D and
Fourth lane 104D is spaced with first accommodating chamber 310D of the shell 30D of the flow-controlled device;When the flow-controlled device is in this
During three working positions, the first accommodating chamber 310D of the third channel 103D and shell 30D of the flow-controlled device is connected, second control
The second flow control body 21D of fluid element 20D respectively by second channel 102D and fourth lane 104D and the flow-controlled device should
First accommodating chamber 310D of shell 30D is spaced;When the flow-controlled device is in four working positions, the second flow control element
The second flow control body 21D of 20D is by the first accommodating chamber 310D phases of fourth lane 104D and the shell 30D of the flow-controlled device
Separate.
As shown in Figure 82 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10D
With the anti-wear component 40D between the second flow control element 20D, wherein anti-wear component 40D have a wear-resisting body 41D, wherein
The wear-resisting body 41D has a wearing face for being suitable to be contacted with the second flow control face 200D of second flow control body 21D
410D, wherein wearing face 410D through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20D
Body 21D relative to the first flow control body 11D of first flow control element 10D rotate when produced frictional force, so as to extend the control
The service life of stream device.Further, the first flow control element 10D of the size and shape of anti-wear component 40D and 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 connects 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 shape and size of the 3rd interface 403D and the 4th interface 404D are respectively with the first of the flow-controlled device
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 second flow control element 20D of the flow-controlled device, anti-wear component 40D does not occur
Relative to the rotation of the first flow control body 11D of first flow control element 10D.It is highly preferred that anti-wear component 40D has a Jing
Smoothing processing is reducing the wearing face 410D of its degree of roughness.Most preferably, first interface of anti-wear component 40D
401D, second interface 402D, the 3rd interface 403D and the 4th interface 404D are respectively up and down through wear-resisting of anti-wear component 40D
Body 41D, so that when the first of relative first flow control element 10D of the second flow control body 21D of second flow control element 20D
When flow control body 11D is rotated, the first interface 401D of anti-wear component 40D, second interface 402D, the 3rd interface 403D and the
Four interface 404D respectively selectively by located at 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 second flow control element 20D
The 7th passage 107D of body 21D and the 9th passage 109D are connected.
As shown in Figure 82 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20D
Upwardly extending driving elements 60D of body 21D and one wherein should from the upwardly extending potted component 70D of driving element 60D
Driving element 60D is suitable to the second flow control body 21D of the second flow control element 20D for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11D of part 10D rotates;Wherein potted component 70D is suitable to located at the medial wall of shell 30D
311D to seal first accommodating chamber 310D, so as to prevent the fluid in first accommodating chamber 310D from first accommodating chamber 310D
Upper end open 3101D flow out.Preferably, potted component 70D contacts with driving element 60D and is suitable to the driving unit
Part 60D is held in place by, so as to the second flow control body 21D for keeping second flow control element 20D is in appropriate location.
As shown in Figure 82 E to Figure 82 F of accompanying drawing, the outer cover body 31D of the shell 30D of the flow-controlled device is from the first flow control unit
End portion 112D of the first flow control body 11D of part 10D is extended downwardly and enclosed and is set as a second accommodating chamber 320D, wherein this
Two accommodating chamber 320D are located at the lower section of end portion 112D of the first flow control body 11D of first flow control element 10D.As accompanying drawing it
Shown in Figure 82 F, flow-controlled device of the present invention further includes a flow blocking element 80D located at second accommodating chamber 320D, wherein should
Flow blocking element 80D is extended downwardly from first flow control body 11D, the medial wall of the wherein flow blocking element 80D and shell 30D
311D forms first be located between the medial wall 311D of the outer cover body 31D of the flow blocking element 80D and shell 30D and leads
Flow chamber 801D, flow blocking element 80D encloses and is set as a second diversion chamber 802D.The wherein first passage 101D of the flow-controlled device certainly should
The first flow control face 100D of the first flow control element 10D is extended downwardly, and is connected with first diversion chamber 801D;The flow-controlled device
Second channel 102D extend downwardly from the first flow control face 100D of first flow control element 10D 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 face 100D of first flow control element 10D
And through first flow control element 10D the first flow control body 11D end portion 112D being connected with first diversion chamber 801D
It is logical;The second channel 102D of the flow-controlled device is extended downwardly and through this from the first flow control face 100D of first flow control element 10D
End portion 112D of the first flow control body 11D of the first flow control element 10D with second diversion chamber 802D being connected.
Figure 82 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30D for implementing flow-controlled device further has 301D and one second opening 302D of one first opening, the wherein flow-controlled device
First passage 101D extend downwardly from the first flow control face 100D of first flow control element 10D and from the first flow control element
End portion 112D of the first flow control body 11D of 10D stretches out to be connected with first opening 301D;The second channel
102D is extended downwardly from the first flow control face 100D of first flow control element 10D and controlled from the first of first flow control element 10D
End portion 112D of stream body 11D stretches out to be connected with second opening 302D;Third channel 103D from this first
The first flow control face 100D of flow control element 10D is extended downwardly and from the low of the first flow control body 11D of first flow control element 10D
End 112D stretches out to be connected with the 3rd opening 303D;With fourth lane 104D from first flow control element 10D
The first flow control face 100D extend downwardly and from end portion 112D of the first flow control body 11D of first flow control element 10D 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,
The inner side of end portion 112D of the first flow control body 11D of first flow control element 10D and the outer cover body 31D of shell 30D
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
With the outer cover body 31D that the 7th opening 307D is respectively arranged on shell 30D.
It should be noted 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 85 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
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 is applied to
Accessing pending water is processed, wherein unit for treating water 90D is connected with flow-controlled device 1D.
As shown in Figure 85 of accompanying drawing, according to the unit for treating water 90D of the 15th preferred embodiment of the invention a water is included
Treatment element 91D, wherein water process element 91D have first open communication 9101D and second open communication
9102D, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91D from unit for treating water 90D
Opening 9101D flow into the water process element 91D and Jing the water process element 91D process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102D of water process element 91D flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91D can be flowed into from second open communication 9102D of the water process element 91D of unit for treating water 90D, and
Water after being processed Jing after water process element 91D process, and the first open communication 9101D stream from water process element 91D
Go out.
It should be noted that first diversion chamber 801D is suitable to connect with the first of the water process element 91D of the water treatment system
Open up a mouthful 9101D 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 85 of accompanying drawing, according to the water process element of the unit for treating water 90D of the 15th preferred embodiment of the invention
91D includes an a water process body 911D and liquid collecting element 912D, and first connection of wherein water process element 91D is opened
Mouth 9101D and the second open communication 9102D are separated by respectively turns up the soil located at water process body 911D, wherein liquid collecting element 912D
Extend in water process body 911D and to the second open communication 9102D direction, and with second open communication 9102D
It is connected, wherein accessing pending water is suitable to flow into the water process unit by first open communication 9101D of water process element 91D
Part 91D, and the water after being processed after the water process body 911D of water process element 91D process, wherein after the process
Water is suitable to flow to the liquid collecting element 912D and flows out from liquid collecting element 912D.In other words, accessing pending water is suitable to from the water
First open communication 9101D of reason element 91D flows into the water process sheet of water process element 91D and Jing water process element 91D
Body 911D process, with water after being processed, current direction liquid collecting element 912D and Jing liquid collecting element 912D wherein after the process
After concentration, Jing second open communications 9102D flow out.Preferably, liquid collecting element 912D has a tubular structure.More preferably
Ground, making the water process element 91D of unit for treating water 90D is included in the material of water process body 911D containing 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 85 of accompanying drawing is the operating diagram using the water treatment facilities of 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
First conducting of the 7th passage 107D that mouth 307D flows into the first accommodating chamber 310D of shell 30D and passes through flow-controlled device 1D is opened
Mouthful 1071D flows into the 7th passage 107D, and subsequent accessing pending water flows into the first passage 101D of flow-controlled device 1D, and the Jing flow controls
The first diversion chamber 801D of device 1D flows to first open communication 9101D of water process element 91D, and the open communications of Jing first
9101D flows into the water process element 91D and the water Jing after the water process body 911D process of water process element 91D is processed,
Water Jing liquid collectings element 912D flows to second open communication 9102D of water process element 91D wherein after the process, and then Jing should
Second open communication 9102D flows to the second diversion chamber 802D of flow-controlled device 1D, and the second diversion chamber of Jing 802D inflows should with after
The second channel 102D of flow-controlled device 1D, then the threeway of the 9th passage 109D guiding inflow flow-controlled device 1D of Jing flow-controlled device 1D
Road 103D, and the 3rd opening 303D of Jing shell 30D flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1D is in the second working position, the 7th opening 307D of the shell 30D that accessing pending water passes through flow-controlled device 1D flows into the shell
The first lead-through opening 1071D and threeway of the first accommodating chamber 310D of 30D and the 7th passage 107D for passing through flow-controlled device 1D
Road 103D flows into the 7th passage 107D and third channel 103D, wherein the accessing pending water for flowing into the 7th passage 107D subsequently flows
Enter the second channel 102D of flow-controlled device 1D, the second diversion chamber 802D of Jing flow-controlled device 1D flows to water process element 91D, and
Second open communication 9102D of Jing water process element 91D flows into liquid collecting element 912D, then flows from liquid collecting element 912D
Enter water process element 91D, and the water process body 911D of back flush water process element 91D, the waste liquid produced after flushing
First open communication 9101D of Jing water process element 91D flows out, subsequently the first diversion chamber 801D streams of Jing flow-controlled devices 1D
Enter the first passage 101D of flow-controlled device 1D, and the 9th passage 109D guiding of Jing flow-controlled device 1D flows through the of flow-controlled device 1D
Four-way 104D, then the 4th opening 304D outflows of Jing shells 30D, wherein flowing into the water Jing of the third channel 103D shells
The 3rd opening 303D of 30D is flowed out so that user is used;When the flow-controlled device 1D of the water treatment system is in three working positions,
The 7th opening 307D of the shell 30D that accessing pending water passes through flow-controlled device 1D flows into the first accommodating chamber 310D of shell 30D, and
7th passage is flowed into by the first lead-through opening 1071D and third channel 103D of the 7th passage 107D of flow-controlled device 1D
107D and third channel 103D, wherein the accessing pending water for flowing into the 7th passage 107D subsequently flows into the first of flow-controlled device 1D leading to
The first diversion chamber 801D of road 101D, Jing flow-controlled device 1D flows into first open communication 9101D of water process element 91D, and
Forward direction rinses the water process body 911D of water process element 91D, the waste liquid Jing liquid collecting elements 912D flow directions produced after flushing
Second open communication 9102D of water process element 91D, and Jing second open communications 9102D flow into the of flow-controlled device 1D
Two diversion chamber 802D, then Jing second diversion chamber 802D flows into the second channel 102D of flow-controlled device 1D, then the Jing flow-controlled devices
Fourth lane 104D of the 9th passage 109D pilot flow direction flow-controlled device 1D of 1D, then Jing shells 30D the 4th opening
304D flows out, wherein the 3rd opening 303D for flowing into the water Jing shell 30D of third channel 103D is flowed out so that user is used;
When the flow-controlled device 1D of the water treatment system is in four working positions, accessing pending water pass through the shell 30D of flow-controlled device 1D the
Seven opening 307D flow into the first accommodating chamber 310D of shell 30D, 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 the third channel 103D of flow-controlled device 1D, Jing
The 3rd opening 303D of shell 30D is flowed out so that user is used, the first passage 101D and second channel of flow-controlled device 1D
102D is blocked by the second flow control body 21D of the second flow control element 20D of flow-controlled device 1D.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 that road 101D is connected is connected with the second channel 102D of the flow-controlled device
When, first open communication 9101D of the water process element 91D of the unit for treating water 90D of the water treatment system be suitable to this first
Opening 301D is connected, and second open communication of the water process element 91D of the unit for treating water 90D of the water treatment system
9102D is suitable to be connected with second opening 302D.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
The 3rd opening 303D of the shell 30D of stream device flows out, so that user is used;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
Carry out back flush, and the waste water that obtains of back flush is suitable to the 4th of the shell 30D of the flow-controlled device from the water treatment system
Opening flows out, while the 3rd opening 303D of the shell 30D of the accessing pending water Jing flow-controlled device flows out;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 waste water for obtaining that rinses is suitable to the outer of the flow-controlled device from the water treatment system
The 4th opening 304D of shell 30D flows out, while the 3rd opening 303D of the shell 30D of the accessing pending water Jing flow-controlled device flows out;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 flow out, so that user is used, simultaneously because water process element 91D with should
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 adjust threeth opening 303D outflow of the 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 processed accessing pending water and is
Water after user offer process, in the second working position or the 3rd working position, the water treatment system can entered to the water process element
While row is reversely or forward direction is rinsed, accessing pending water is provided for user, the lasting water supply function is held suitable for meeting user
Continuous water needs, and especially uses 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 reason water is flowed into, this design is particularly suitable for requiring the use occasion of high flux flushing.
With reference to shown in Figure 86 A to Figure 89 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 16th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10E and one
Dynamicly located at the second flow control element 20E of first flow control element 10E, wherein the first flow control element 10E includes one first
Flow control body 11E, the first flow control body 11E include top ends 111E, and wherein top ends 111E form one first
Flow control face 100E;Second flow control element 20E includes that a second flow control body 21E, the second flow control body 21E have one
Bottom 211E, an a high end 212E and extension 213E, the wherein high end 212E from bottom 211E upwards
Extend, bottom 211E forms a second flow control face 200E;The wherein first flow control face 100E of first flow control element 10E
It is suitable to be contacted with second flow control face 200E of second flow control element 20E.
As shown in Figure 86 B to Figure 86 D of accompanying drawing, further, as shown in Figure 87 A to Figure 87 D of accompanying drawing, the flow-controlled device
Top ends 111E of the first flow control element 10E include a first central part 1111E, first edge portion 1112E and one
The first pars intermedia 1113E between the first central part 1111E and first edge portion 1112E is extended in, the second flow control unit
The bottom 211E of part 20E include the second central part 2111E, a second edge portion 2112E and one extend in this
The second pars intermedia 2113E between two central part 2111E and second edge portion 2112E, the wherein flow-controlled device have one first
Passage 101E, second channel 102E, third channel 103E, fourth lane 104E, a 7th passage 107E
With a 9th passage 109E, wherein first passage 101E, second channel 102E, third channel 103E and fourth lane 104E
It is respectively arranged on the first flow control body 11E of first flow control element 10E;7th passage 107E and the 9th passage 109E set respectively
In second flow control body 21E, wherein first passage 101E, second channel 102E, third channel 103E and fourth lane
First flow control face 100Es of the 104E respectively from the first flow control body 11E of first flow control element 10E is extended downwardly;Wherein should
7th passage 107E upwardly extend from the second flow control face 200E of the bottom 211E of second flow control body 21E and from this second
The second pars intermedia 2113E of the bottom 211E of flow control body 21E stretches out and forms one and is connected with space outerpace all the time
The first logical lead-through opening 1071E;Second flow controls of the 9th passage 109E from the bottom 211E of second flow control body 21E
Face 200E extends upwardly to the high end 212E of the second flow control body 21E of second flow control element 20E, and from second flow control
The second pars intermedia 2113E of the bottom 211E of the second flow control body 21E of element 20E stretches out, wherein the flow-controlled device
Third channel 103E is located at the outside of second channel 102E, wherein the second flow control body of second flow control element 20E
There is the second edge portion 2112E of the bottom 211E of 21E 21121E on the outside of an edge, wherein extension 213E certainly should
High end 212E outwardly and downwardly extends, and from 21121E on the outside of the edge of the second edge portion 2112E of bottom 211E
Stretch out, so as to enclose with the bottom 211E of the second flow control body 21E of second flow control element 20E the 9th passage is set as
109E.Preferably, the first lead-through opening 1071E of the 7th passage 107E can keep the 7th passage 107E empty with outside all the time
Between, especially it is connected with the space outerpace of flow-controlled device.It is highly preferred that first passage 101E, the second channel of the flow-controlled device
102E and fourth lane 104E are respectively from the first pars intermedia 1113E of top ends 111E of first flow control body 11E to inside and outside
Extend to first central part 1111E of top ends 111E;Third channel 103E is located at the top of first flow control body 11E
First edge portion 1112E of end 111E;7th passage 107E of the flow-controlled device is controlled from the second of second flow control element 20E
The second pars intermedia 2113E of the bottom 211E of stream body 21E stretches out.As shown in Figure 88 A to Figure 88 C of accompanying drawing, this
Two flow control element 20E can relative to the first flow control element 10E rotate so that the flow-controlled device have first working position, one
Individual second working position and the 3rd working position, wherein when flow-controlled device is in the first working position, the 7th passage of flow-controlled device
107E is connected with first passage 101E, the 9th passage 109E of flow-controlled device respectively with second channel 102E and third channel 103E
It is connected;When flow-controlled device is in the second working position, the 7th passage 107E of flow-controlled device is connected with second channel 102E, and the 9th
Passage 109E is connected respectively with first passage 101E with fourth lane 104E, third channel 103E and the flow control of the flow-controlled device
The upper outer space of the first flow control body 11E of the first flow control element 10E of device is connected;When flow-controlled device is in the 3rd work
During position, the 7th passage 107E of flow-controlled device is connected with first passage 101E, and the 9th passage 109E of flow-controlled device is respectively with second
Passage 102E is connected with fourth lane 104E, the third channel 103E 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 11E of 10E is connected.
Preferably, when flow-controlled device is in the first working position, fourth lane 104E of the flow-controlled device is by the second flow control element
The second flow control body 21E obstructions of 20E, the second flow control body 21E of second flow control element 20E is respectively by second channel 102E
With third channel 103E and the upper outer spaced apart of the flow-controlled device;When flow-controlled device is in the second working position, this
The second flow control body 21E of two flow control element 20E is respectively by first passage 101E and fourth lane 104E and the flow-controlled device
Upper outer spaced apart;When flow-controlled device is in three working positions, the second flow control body of second flow control element 20E
21E is respectively by second channel 102E and the upper outer spaced apart of fourth lane 104E and the flow-controlled device.
It should be noted that the first passage 101E of the flow-controlled device, second channel 102E, third channel 103E and four-way
Road 104E be spaced from each other respectively located at the first flow control element the first flow control body 11E;7th passage 107E and this
Nine passage 109E be spaced from each other respectively located at second flow control element 20E the second flow control body 21E.
As shown in Figure 87 A to Figure 87 D of accompanying drawing, the first flow control face 100E of the first flow control element 10E of the flow-controlled device and
The second flow control face 200E of the second flow control element 20E is circle, the first passage 101E of the flow-controlled device, fourth lane 104E and
Second channel 102E is deasil arranged in the first flow control body 11E of first flow control element 10E with this order;The flow-controlled device
The 7th passage 107E and the 9th passage 109E second flow control of second flow control element 20E is deasil arranged in this order
Body 21E.Alternatively, first passage 101E, fourth lane 104E and the second channel 102E that the flow-controlled device sets can also this be suitable
Sequence is widdershins arranged in the first flow control body 11E of first flow control element 10E;While the 7th passage 107E of the flow-controlled device
With the second flow control body 21E that the 9th passage 109E is widdershins arranged in second flow control element 20E with this order.
Preferably, first passage 101E, fourth lane 104E, second channel 102E and third channel 103E be radially
Located at the first flow control face 100E of first flow control element 10E, and the 7th passage 107E and the 9th passage 109E are radially
Located at the second flow control face 200E of second flow control element 20E.
It is highly preferred that first passage 101E is extended downwardly from the first flow control face 100E of first flow control element 10E;Should
Second channel 102E is extended downwardly from the first flow control face 100E of first flow control element 10E;Third channel 103E from this
The first flow control face 100E of one flow control element 10E is extended downwardly and stretched out and fourth lane 104E is from first flow control unit
The first flow control face 100E of part 10E is extended downwardly and stretched out.Further, second flow control of second flow control element 20E
The shapes and sizes of face 200E according to first flow control element 10E the first flow control face 100E design shaping so that this second
The second flow control face 200E of flow control element 20E is suitable to the first flow control face 100E located at first flow control element 10E, and this
Two flow control element 20E relative to the first flow control element 10E rotate when, be suitable to adjust located at first flow control element 10E first control
First passage 101E, fourth lane 104E, the second channel 102E and third channel 103E of stream body 11E respectively with located at this
The connection of the 7th passage 107E and the 9th passage 109E of the second flow control body 21E of two flow control element 20E, is existed with controlling current
Flow in the different passages of flow-controlled device of the present invention.
As shown in accompanying drawing 87A to Figure 87 D, the first flow control face 100E of the first flow control element 10E of the flow-controlled device has one
Core 1000E shown in individual figure chain lines, wherein core 1000E located at first flow control element 10E the
Second control of the first central part 1111E of top ends 111E of one flow control body 11E, the second flow control element 20E of the flow-controlled device
Stream interface 200E has the central area 2000E shown in a figure chain lines, and wherein central area 2000E is located at second control
First control of the second central part 2111E of the bottom 211E of the second flow control body 21E of fluid element 20E, the wherein flow-controlled device
The core 1000E of the first flow control face 100E of fluid element 10E is provided with first nodal point 1110E, and second flow control
The central area 2000E of the second flow control face 200E of element 20E is provided with a second central point 2110E, wherein first flow control
Part outside the core 1000E of face 100E can be by six the first bluelines through first nodal point 1110E
10002E be divided into clockwise a Part I 1001E, Part II 1002E, Part III 1003E, one
Four part 1004E, a Part V 1005E and a Part VI 1006E;The central area of second flow control face 200E
Part outside 2000E can clockwise be divided into one by six the second blueline 20002E through second central point 2110E
First area 2001E, second area 2002E, the 3rd region 2003E, the 4th region 2004E, one the 5th
Region 2005E and a 6th region 2006E;Wherein every adjacent two of the first flow control face 100E of the first flow control element 10E
Central angle alpha 1E that first blueline 10002E is formed is equal in magnitude;The second flow control face 200E's of second flow control element 20E is every
Central angle alpha 2E of adjacent two the second blueline 20002E formation is equal in magnitude, and wherein first passage 101E is from the first flow control
The Part I 1001E and Part II 1002E of face 100E is extended downwardly;Second channel 102E is from the first flow control element
The Part V 1005E and Part VI 1006E of the first flow control face 100E of 10E is extended downwardly;Third channel 103E is from
The Part VI 1006E of one flow control face 100E is extended downwardly;Part III of fourth lane 104E from the first flow control face 100E
1003E and Part IV 1004E are extended downwardly;First area 2001Es of the 7th passage 107E from second flow control face 200E
Upwardly extend;9th passage 109E prolongs upwards from the 4th region 2004E and the 5th region 2005E of second flow control face 200E
Stretch.Preferably, the 9th passage 109E is outside from the 4th region 2004E and the 5th region 2005E of second flow control face 200E
Extend.
As shown in Figure 86 B and Figure 89 of accompanying drawing, according to the flow-controlled device of the 16th preferred embodiment of the invention one is further included
Individual shell 30E, and the first flow control body 11E of first flow control element 10E of the flow-controlled device further includes one from the top
End portion 112E that end 111E is extended downwardly, wherein shell 30E include an outer cover body 31E, the wherein outer cover body
31E outwardly and upwardly extends and encloses and is set as one from end portion 112E of the first flow control body 11E of first flow control element 10E
First accommodating chamber 310E, so that outer cover body 31E is formed with a medial wall 311E, a lateral wall 312E and one
First lead-through opening of opening up upper end open 3101E, wherein the first accommodating chamber 310E and the 7th passage 107E
1071E is connected, and wherein second flow control element 20E is suitable to the second flow control face 200E and is located at first accommodating chamber 310E facing downward
And located at the first flow control face 100E of first flow control element 10E.Preferably, the first passage 101E of the flow-controlled device and this second
Passage 102E is extended downwardly and through first flow control element 10E's from the first flow control face 100E of first flow control element 10E
End portion 112E of the first flow control body 11E.As shown in Figure 86 B of accompanying drawing, further, shell 30E has one the 3rd
Opening 303E, the 4th opening 304E and one the 7th opening 307E, the wherein the 3rd opening 303E and third channel 103E
It is connected, the 4th opening 304E is connected with fourth lane 104E, the 7th opening 307E is connected with first accommodating chamber 310E
It is logical.In other words, third channel 103E is extended downwardly from the first flow control face 100E of first flow control element 10E and certainly should
End portion 112E of the first flow control body 11E of the first flow control element 10E stretches out to be connected with the 3rd opening 303E;
Fourth lane 104E is extended downwardly and from the first flow control element from the first flow control face 100E of first flow control element 10E
End portion 112E of the first flow control body 11E of 10E stretches out to be connected with the 4th opening 304E.Preferably, this
The medial wall of end portion 112E of the first flow control body 11E of one flow control element 10E and the outer cover body 31E of shell 30E
311E is integrally formed.It is highly preferred that the 3rd opening 303E, the 4th opening 304E and the 7th opening 307E are respectively arranged on the shell
The outer cover body 31E of 30E.
It should be noted that when the flow-controlled device is in first working position, second flow control of second flow control element 20E
Body 21E is respectively by first receiving of the shell 30E of second channel 102E and third channel 103E and the flow-controlled device
Room 310E is spaced;When the flow-controlled device is in second working position, the third channel 103E's and shell 30E of the flow-controlled device
First accommodating chamber 310E is connected, the second flow control body 21E of second flow control element 20E respectively by first passage 101E and
Fourth lane 104E is spaced with first accommodating chamber 310E of the shell 30E of the flow-controlled device;When the flow-controlled device is in this
During three working positions, the first accommodating chamber 310E of the third channel 103E and shell 30E of the flow-controlled device is connected, second control
The second flow control body 21E of fluid element 20E respectively by second channel 102E and fourth lane 104E and the flow-controlled device should
First accommodating chamber 310E of shell 30E is spaced.
As shown in Figure 86 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10E
With the anti-wear component 40E between the second flow control element 20E, wherein anti-wear component 40E have a wear-resisting body 41E, wherein
The wear-resisting body 41E has a wearing face for being suitable to be contacted with the second flow control face 200E of second flow control body 21E
410E, wherein wearing face 410E through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20E
Body 21E relative to the first flow control body 11E of first flow control element 10E rotate when produced frictional force, so as to extend the control
The service life of stream device.Further, the first flow control element 10E of the size and shape of anti-wear component 40E and the flow-controlled device
The first flow control face 100E it is corresponding and wear-resisting body 41E of anti-wear component 40E is formed with one first and connects with being spaced from each other
Mouth 401E, second interface 402E, wherein a 3rd interface 403E and a 4th interface 404E, the first interface
401E, second interface 402E, the shape and size of the 3rd interface 403E and the 4th interface 404E are respectively with the first of the flow-controlled device
Passage 101E, second channel 102E, third channel 103E are corresponding with fourth lane 104E.Preferably, as anti-wear component 40E
When between the first flow control element 10E and second flow control element 20E of the flow-controlled device, anti-wear component 40E does not occur
Relative to the rotation of the first flow control body 11E of first flow control element 10E.It is highly preferred that anti-wear component 40E has a Jing
Smoothing processing is reducing the wearing face 410E of its degree of roughness.Most preferably, first interface of anti-wear component 40E
401E, second interface 402E, the 3rd interface 403E and the 4th interface 404E are respectively up and down through wear-resisting of anti-wear component 40E
Body 41E, so that when the first of relative first flow control element 10E of the second flow control body 21E of second flow control element 20E
When flow control body 11E is rotated, the first interface 401E of anti-wear component 40E, second interface 402E, the 3rd interface 403E and the
Four interface 404E respectively selectively by located at first flow control element 10E the first flow control body 11E first passage 101E,
Second channel 102E, third channel 103E and fourth lane 104E and the second flow control sheet located at second flow control element 20E
The 7th passage 107E of body 21E and the 9th passage 109E are connected.
As shown in Figure 86 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20E
Upwardly extending driving elements 60E of body 21E and one wherein should from the upwardly extending potted component 70E of driving element 60E
Driving element 60E is suitable to the second flow control body 21E of the second flow control element 20E for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11E of part 10E rotates;Wherein potted component 70E is suitable to the medial wall 311E located at shell 30E
To seal first accommodating chamber 310E, so as to prevent the fluid in first accommodating chamber 310E from the upper of first accommodating chamber 310E
End opening 3101E flows out.Preferably, potted component 70E contacts with driving element 60E and is suitable to the driving element
60E is held in place by, so as to the second flow control body 21E for keeping second flow control element 20E is in appropriate location.
As shown in Figure 86 E to Figure 86 F of accompanying drawing, the outer cover body 31E of the shell 30E of the flow-controlled device is from the first flow control unit
End portion 112E of the first flow control body 11E of part 10E is extended downwardly and enclosed and is set as a second accommodating chamber 320E, wherein this
Two accommodating chamber 320E are located at the lower section of end portion 112E of the first flow control body 11E of first flow control element 10E.As accompanying drawing it
Shown in Figure 86 F, flow-controlled device of the present invention further includes a flow blocking element 80E located at second accommodating chamber 320E, wherein should
Flow blocking element 80E is extended downwardly from first flow control body 11E, the shell sheet of the wherein flow blocking element 80E and shell 30E
Body 31E forms first be located between the medial wall 311E of the outer cover body 31E of the flow blocking element 80E and shell 30E
Diversion chamber 801E, flow blocking element 80E enclose and are set as a second diversion chamber 802E, and the wherein first passage 101E of the flow-controlled device is certainly
The first flow control face 100E of first flow control element 10E is extended downwardly, and is connected with first diversion chamber 801E;The flow-controlled device
Second channel 102E extend downwardly from the first flow control face 100E of first flow control element 10E and with second diversion chamber 802E
It is connected.Preferably, the first passage 101E of the flow-controlled device is from the first flow control face 100E of first flow control element 10E to downward
Stretch and through first flow control element 10E the first flow control body 11E end portion 112E with the first diversion chamber 801E phases
Connection;The second channel 102E of the flow-controlled device is extended downwardly and run through from the first flow control face 100E of first flow control element 10E
End portion 112E of the first flow control body 11E of first flow control element 10E with second diversion chamber 802E being connected.
Figure 86 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30E for implementing flow-controlled device further has 301E and one second opening 302E of one first opening, the wherein flow-controlled device
First passage 101E extend downwardly from the first flow control face 100E of first flow control element 10E and from the first flow control element
End portion 112E of the first flow control body 11E of 10E stretches out to be connected with first opening 301E;The second channel
102E is extended downwardly from the first flow control face 100E of first flow control element 10E and controlled from the first of first flow control element 10E
End portion 112E of stream body 11E stretches out to be connected with second opening 302E;Third channel 103E from this first
The first flow control face 100E of flow control element 10E is extended downwardly and from the low of the first flow control body 11E of first flow control element 10E
End 112E stretches out to be connected with the 3rd opening 303E;With fourth lane 104E from first flow control element 10E
The first flow control face 100E extend downwardly and from end portion 112E of the first flow control body 11E of first flow control element 10E to
It is outer to extend to be connected with the 4th opening 304E;The first accommodating chamber 310E is connected with the 7th opening 307E.Preferably,
The inner side of end portion 112E of the first flow control body 11E of first flow control element 10E and the outer cover body 31E of shell 30E
Wall 311E is integrally formed.It is highly preferred that first opening 301E, the second opening 302E, the 3rd opening 303E, the 4th opening 304E
With the outer cover body 31E that the 7th opening 307E is respectively arranged on shell 30E.
It should be noted that when this is optional implement flow-controlled device shell 30E have the first opening 301E and this second open
Mouthful 302E, and the first passage 101E of the flow-controlled device is connected with first 301E that is open;Second channel 102E with this second
When opening 302E is connected, the flow-controlled device will not need the flow blocking element 80E of the flow-controlled device of present pre-ferred embodiments.
Figure 89 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1E and at least one water treatment facilities, such as unit for treating water 90E, wherein unit for treating water 90E is applied to
Accessing pending water is processed, wherein unit for treating water 90E is connected with flow-controlled device 1E.
As shown in Figure 89 of accompanying drawing, according to the unit for treating water 90E of the 16th preferred embodiment of the invention a water is included
Treatment element 91E, wherein water process element 91E have first open communication 9101E and second open communication
9102E, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91E from unit for treating water 90E
Opening 9101E flow into the water process element 91E and Jing the water process element 91E process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102E of water process element 91E flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91E can be flowed into from second open communication 9102E of the water process element 91E of unit for treating water 90E, and
Water after being processed Jing after water process element 91E process, and the first open communication 9101E stream from water process element 91E
Go out.
It should be noted that first diversion chamber 801E is suitable to connect with the first of the water process element 91E of the water treatment system
Open up a mouthful 9101E to be connected, and second diversion chamber 802E is suitable to the second open communication 9102E with water process element 91E
It is connected.
As shown in Figure 89 of accompanying drawing, according to the water process unit of the unit for treating water 90E of the 16th preferred embodiment of the invention
Part 91E includes an a water process body 911E and liquid collecting element 912E, first connection of wherein water process element 91E
Opening 9101E and the second open communication 9102E are separated by respectively turns up the soil located at water process body 911E, wherein the liquid collecting element
912E extends in the water process body 911E and to the second open communication 9102E direction, and with second open communication
9102E is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101E of water process element 91E
Treatment element 91E, and the water after being processed after the water process body 911E of water process element 91E process, wherein should
Water is suitable to flow to the liquid collecting element 912E and flows out from liquid collecting element 912E after process.In other words, accessing pending water is suitable to certainly
First open communication 9101E of water process element 91E flows into the water of water process element 91E and Jing water process element 91E
Body 911E process is processed, with water after being processed, the current direction liquid collecting element 912E and Jing liquid collecting unit wherein after the process
After part 912E is concentrated, Jing second open communications 9102E flow out.Preferably, liquid collecting element 912E has a tubular structure.
It is highly preferred that make in materials of the water process element 91E of unit for treating water 90E including a water process body 911E containing
At least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 89 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1E of water treatment system is in the first working position, the 7th of the shell 30E that accessing pending water passes through flow-controlled device 1E opens
First conducting of the 7th passage 107E that mouth 307E flows into the first accommodating chamber 310E of shell 30E and passes through flow-controlled device 1E is opened
Mouthful 1071E flows into the 7th passage 107E, and subsequent accessing pending water flows into the first passage 101E of flow-controlled device 1E, and the Jing flow controls
The first diversion chamber 801E of device 1E flows to first open communication 9101E of water process element 91E, and the open communications of Jing first
9101E flows into the water process element 91E and the water Jing after the water process body 911E process of water process element 91E is processed,
Water Jing liquid collectings element 912E flows to second open communication 9102E of water process element 91E wherein after the process, and then Jing should
Second open communication 9102E flows to the second diversion chamber 802E of flow-controlled device 1E, and the second diversion chamber of Jing 802E inflows should with after
The second channel 102E of flow-controlled device 1E, then the threeway of the 9th passage 109E guiding inflow flow-controlled device 1E of Jing flow-controlled device 1E
Road 103E, and the 3rd opening 303E of Jing shell 30E flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1E is in the second working position, the 7th opening 307E of the shell 30E that accessing pending water passes through flow-controlled device 1E flows into the shell
The first lead-through opening 1071E and threeway of the first accommodating chamber 310E of 30E and the 7th passage 107E for passing through flow-controlled device 1E
Road 103E flows into the 7th passage 107E and third channel 103E, wherein the accessing pending water for flowing into the 7th passage 107E subsequently flows
Enter the second channel 102E of flow-controlled device 1E, the second diversion chamber 802E of Jing flow-controlled device 1E flows to water process element 91E, and
Second open communication 9102E of Jing water process element 91E flows into liquid collecting element 912E, then flows from liquid collecting element 912E
Enter water process element 91E, and the water process body 911E of back flush water process element 91E, the waste liquid produced after flushing
First open communication 9101E of Jing water process element 91E flows out, subsequently the first diversion chamber 801E streams of Jing flow-controlled devices 1E
Enter the first passage 101E of flow-controlled device 1E, and the 9th passage 109E guiding of Jing flow-controlled device 1E flows through the of flow-controlled device 1E
Four-way 104E, then the 4th opening 304E outflows of Jing shells 30E, wherein flowing into the water Jing of the third channel 103E shells
The 3rd opening 303E of 30E is flowed out so that user is used;When the flow-controlled device 1E of the water treatment system is in three working positions,
The 7th opening 307E of the shell 30E that accessing pending water passes through flow-controlled device 1E flows into the first accommodating chamber 310E of shell 30E, and
7th passage is flowed into by the first lead-through opening 1071E and third channel 103E of the 7th passage 107E of flow-controlled device 1E
107E and third channel 103E, wherein the accessing pending water for flowing into the 7th passage 107E subsequently flows into the first of flow-controlled device 1E leading to
The first diversion chamber 801E of road 101E, Jing flow-controlled device 1E flows into first open communication 9101E of water process element 91E, and
Forward direction rinses the water process body 911E of water process element 91E, the waste liquid Jing liquid collecting elements 912E flow directions produced after flushing
Second open communication 9102E of water process element 91E, and Jing second open communications 9102E flow into the of flow-controlled device 1E
Two diversion chamber 802E, then Jing second diversion chamber 802E flows into the second channel 102E of flow-controlled device 1E, then the Jing flow-controlled devices
Fourth lane 104E of the 9th passage 109E pilot flow direction flow-controlled device 1E of 1E, then Jing shells 30E the 4th opening
304E flows out, wherein the 3rd opening 303E for flowing into the water Jing shell 30E of third channel 103E is flowed out so that user is used.
It is understood that when further there is the shell 30E of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening 302E that the first opening 301E and that road 101E is connected is connected with the second channel 102E of the flow-controlled device
When, first open communication 9101E of the water process element 91E of the unit for treating water 90E of the water treatment system be suitable to this first
Opening 301E is connected, and second open communication of the water process element 91E of the unit for treating water 90E of the water treatment system
9102E is suitable to be connected with second opening 302E.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
The 3rd opening 303E of the shell 30E of stream device flows out, so that user is used;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 91E of the accessing pending water to the water treatment system
Carry out back flush, and the waste water that obtains of back flush is suitable to the 4th of the shell 30E of the flow-controlled device from the water treatment system
Opening 104E flows out, while the 3rd opening 303E of the shell 30E of the accessing pending water Jing flow-controlled device flows out;When user adjusts this
When invention flow-controlled device is in three working positions, water treatment system of the present invention is suitable to adjust the accessing pending water to the water treatment system
Water process element 91E carry out positive flushing, and positive rinse the flow-controlled device that the waste water for obtaining is suitable to from the water treatment system
The 4th opening 104E of shell 30E flow out, while the 3rd opening 303E streams of the shell 30D of the accessing pending water Jing flow-controlled device
Go out.That is, when user adjusts flow-controlled device of the present invention and is in the second working position or three working positions, at water of the present invention
Reason system is suitable to adjust threeth opening 303E outflow of the accessing pending water from the shell 30E of the flow-controlled device.Therefore, when present invention control
When the water treatment system of stream device is in the first working position, the water treatment system can be processed accessing pending water and carried for user
For water after process, in the second working position or the 3rd working position, the water treatment system can the water process element is carried out reversely or
While forward direction is rinsed, for user accessing pending water is provided.In addition, in flow-controlled device of the present invention, flowing into for accessing pending water
First passage 101E, the second channel 102E and big as far as possible for fourth lane 104E of blowdown flowed out for water after process
And first passage 101E, second channel 102E and fourth lane 104E, and with identical cross section, so as to improve water of the present invention
The treatment effeciency of processing system.
With reference to shown in Figure 90 A to Figure 93 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 17th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10F and one
Dynamicly located at the second flow control element 20F of first flow control element 10F, wherein the first flow control element 10F includes one first
Flow control body 11F, the first flow control body 11F include top ends 111F, and wherein top ends 111F form one first
Flow control face 100F;Second flow control element 20F includes that a second flow control body 21F, the second flow control body 21F have one
, from the upwardly extending high end 212F of bottom 211F, bottom 211F forms one second control for bottom 211F and one
Stream interface 200F;The wherein first flow control face 100F of first flow control element 10F be suitable to second flow control element 20F this second
Flow control face 200F contacts.
As shown in Figure 90 B to Figure 90 D of accompanying drawing, further, as shown in Figure 91 A to Figure 91 D of accompanying drawing, the flow-controlled device
Top ends 111F of the first flow control element 10F include a first central part 1111F, first edge portion 1112F and one
The first pars intermedia 1113F between the first central part 1111F and first edge portion 1112F is extended in, the second flow control unit
The bottom 211F of part 20F include the second central part 2111F, a second edge portion 2112F and one extend in this
The second pars intermedia 2113F between two central part 2111F and second edge portion 2112F, the wherein flow-controlled device have one first
Passage 101F, second channel 102F, third channel 103F, fourth lane 104F, clematis stem road 106F,
One the 7th passage 107F and a 9th passage 109F, wherein first passage 101F, second channel 102F, third channel
103F, fourth lane 104F and clematis stem road 106F are respectively arranged on the first flow control body 11F of first flow control element 10F;Should
7th passage 107F and the 9th passage 109F are respectively arranged on second flow control body 21F, and wherein first passage 101F, second are led to
Road 102F, third channel 103F, fourth lane 104F and clematis stem road 106F are controlled respectively from the first of first flow control element 10F
The first flow control face 100F of stream body 11F is extended downwardly;Wherein the 7th passage 107F is from the bottom of second flow control body 21F
The second flow control face 200F of portion 211F upwardly extend and bottom 211F from second flow control body 21F the second pars intermedia
2113F stretches out and forms a first lead-through opening 1071F being connected with space outerpace all the time;9th passage 109F
Extend upwardly to second flow control element 20F's from the second flow control face 200F of the bottom 211F of second flow control body 21F
The high end 212F of the second flow control body 21F.In other words, the first lead-through opening 1071F of the 7th passage 107F can keep
7th passage 107F all the time with space outerpace, be especially connected with the space outerpace of flow-controlled device.Preferably, the flow-controlled device
First passage 101F, second channel 102F, fourth lane 104F and clematis stem road 106F are respectively from first flow control body 11F's
First pars intermedia 1113F of top ends 111F extends inwardly to first central part 1111F of top ends 111F;The threeway
Road 103F extends inwardly to top ends 111F from the first pars intermedia 1113F of top ends 111F of first flow control body 11F
The first central part 1111F and extend out to first edge portion 1112F;7th passage 107F of the flow-controlled device certainly should
The second pars intermedia 2113F of the bottom 211F of the second flow control body 21F of the second flow control element 20F stretches out;The flow control
Second pars intermedias of the 9th passage 109F of device from the bottom 211F of the second flow control body 21F of second flow control element 20F
2113F extends out to the second edge portion 2112F of bottom 211F.
As shown in Figure 92 A to Figure 92 D of accompanying drawing, the second flow control element 20F can be rotated relative to the first flow control element 10F
So that the flow-controlled device has first working position, the 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 107F of the flow-controlled device is connected with first passage 101F,
9th passage 109F of the flow-controlled device is connected respectively with second channel 102F and third channel 103F;When flow-controlled device is in second
During working position, the 7th passage 107F of the flow-controlled device is connected with clematis stem road 106F, the 9th passage 109F point of the flow-controlled device
It is not connected with fourth lane 104F with first passage 101F, the third channel 103F of the flow-controlled device and the top of the flow-controlled device
Space outerpace is connected;When flow-controlled device is in three working positions, the 7th passage 107F and first passage 101F of the flow-controlled device
It is connected, the 9th passage 109F of the flow-controlled device is connected respectively with second channel 102F with fourth lane 104F, the flow-controlled device
Third channel 103F be connected with the upper outer space of the flow-controlled device;When flow-controlled device is in four working positions, the flow control
7th passage 107F of device is connected with third channel 103F.
Preferably, when flow-controlled device is in four working positions, the 9th passage 109F and first passage 101F of the flow-controlled device
It is connected.
It is highly preferred that when flow-controlled device is in the first working position, fourth lane 104F and clematis stem road of the flow-controlled device
106F is blocked respectively by the second flow control body 21F of the second flow control element 20F, the second flow control sheet of second flow control element 20F
Body 21F is respectively by second channel 102F and third channel 103F and the upper outer spaced apart of the flow-controlled device;Work as control
When stream device is in the second working position, the second channel 102F of the flow-controlled device is by the second flow control body 21F of the second flow control element 20F
Obstruction, the second flow control body 21F of second flow control element 20F respectively by first passage 101F and fourth lane 104F and
The upper outer spaced apart of the flow-controlled device;When flow-controlled device is in three working positions, the clematis stem road 106F of the flow-controlled device
Blocked by the second flow control body 21F of the second flow control element 20F, the second flow control body 21F difference of second flow control element 20F
By second channel 102F and the upper outer spaced apart of fourth lane 104F and the flow-controlled device;Be in when flow-controlled device
During four working positions, the second channel 102F of the flow-controlled device, fourth lane 104F and clematis stem road 106F are respectively by the second flow control
The second flow control body 21F obstructions of element 20F, the second flow control body 21F of second flow control element 20F is by the first passage
The upper outer spaced apart of 101F and the flow-controlled device.
As shown in Figure 91 A to Figure 91 D of accompanying drawing, the first of top ends 111F of the first flow control element 10F of the flow-controlled device
Central part 1111F has first nodal point 1110F, second central part of the bottom 211F of second flow control element 20F
2111F has a second central point 2110F, the wherein bottom of the second flow control body 21F of second flow control element 20F
There is the second edge portion 2112F of 211F an outward flange 21121F, the third channel 103F of the flow-controlled device to have one the
Triple channel edge 1031F, 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
The ultimate range of the third channel edge 1031F of first nodal point 1110F of 1111F to third channel 103F is L1F, and this
The second edge portion of the second central point 2110F of two central part 2111F to the bottom 211F of second flow control element 20F
The ultimate range of the outward flange 21121F of 2112F is L2F, and the wherein L1F is more than the L2F.
As shown in Figure 91 A to Figure 91 D of accompanying drawing, the second flow control body 21F of second flow control element 20F is further included
One extension 213F, the 9th passage 109F have a 9th channel edge 1091F, wherein extension 213F from this
The high end 212F of two flow control body 21F stretches out and extends downward the 9th channel edge of the 9th passage 109F
1091F, and causing when the flow-controlled device is in the first working position, the second flow control body 21F of second flow control element 20F can be by
The upper outer spaced apart of third channel 103F and the flow-controlled device.Preferably, the 9th passage 109F energy of the flow-controlled device
Enough extension 213F that second flow control element 20F is extended out to from the second edge portion 2112F of bottom 211F.
It should be noted that the first passage 101F of the flow-controlled device, second channel 102F, third channel 103F, fourth lane
104F and clematis stem road 106F be spaced from each other respectively located at the first flow control element the first flow control body 11F;7th leads to
Road 107F and the 9th passage 109F be spaced from each other respectively located at second flow control element 20F the second flow control body 21F.
As shown in Figure 91 A to 91D of accompanying drawing, the first flow control face 100F of the first flow control element 10F of the flow-controlled device and
The second flow control face 200F of two flow control element 20F is circle, the first passage 101F of the flow-controlled device, clematis stem road 106F,
Triple channel 103F, second channel 102F and fourth lane 104F are deasil arranged in first flow control element 10F with this order
The first flow control body 11F;The 7th passage 107F and the 9th passage 109F of the flow-controlled device is deasil arranged in this order
The second flow control body 21F of second flow control element 20F.Alternatively, the flow-controlled device sets first passage 101F, clematis stem road
106F, third channel 103F, second channel 102F and fourth lane 104F can also this order be widdershins arranged in this first
The first flow control body 11F of flow control element 10F;Simultaneously the 7th passage 107F and the 9th passage 109F of the flow-controlled device is with this order
Widdershins it is arranged in the second flow control body 21F of second flow control element 20F.
Preferably, first passage 101F, second channel 102F, third channel 103F, fourth lane 104F and clematis stem
Road 106F is radially located at the first flow control face 100F of first flow control element 10F, and the 7th passage 107F and the 9th is logical
Road 109F is radially located at the second flow control face 200F of second flow control element 20F.
It is highly preferred that first passage 101F is extended downwardly from the first flow control face 100F of first flow control element 10F;Should
Second channel 102F is extended downwardly from the first flow control face 100F of first flow control element 10F;Third channel 103F from this
The first flow control face 100F of one flow control element 10F is extended downwardly and stretched out;Fourth lane 104F is from the first flow control unit
The first flow control face 100F of part 10F is extended downwardly and stretched out;With the clematis stem road 106F from first flow control element 10F's
First flow control face 100F is extended downwardly.Further, the shapes and sizes of the second flow control face 200F of second flow control element 20F
According to the first flow control face 100F design shapings of first flow control element 10F, so that second control of second flow control element 20F
Stream interface 200F is suitable to the first flow control face 100F located at first flow control element 10F, and in the second flow control element 20F relative the
One flow control element 10F rotate when, adjust located at first flow control element 10F the first flow control body 11F first passage 101F,
Second channel 102F, third channel 103F, fourth lane 104F and clematis stem road 106F respectively with located at the second flow control element
The connection of the 7th passage 107F and the 9th passage 109F of the second flow control body 21F of 20F, to control current in flow control of the present invention
Flow in the different passages of device.
As shown in accompanying drawing 91A to Figure 91 D, the first flow control face 100F of the first flow control element 10F of the flow-controlled device has one
Core 1000F shown in individual figure chain lines, wherein core 1000F located at first flow control element 10F the
Second control of the first central part 1111F of top ends 111F of one flow control body 11F, the second flow control element 20F of the flow-controlled device
Stream interface 200F has the central area 2000F shown in a figure chain lines, and wherein central area 2000F is located at second control
First control of the second central part 2111F of the bottom 211F of the second flow control body 21F of fluid element 20F, the wherein flow-controlled device
The core 1000F of the first flow control face 100F of fluid element 10F is provided with first nodal point 1110F, and second flow control
The central area 2000F of the second flow control face 200F of element 20F is provided with a second central point 2110F, wherein first flow control
Part outside the core 1000F of face 100F can be suitable by the first blueline 10002F through first nodal point 1110F
Hour hands be divided into a Part I 1001F shown in chain-dotted line, Part II 1002F, Part III 1003F, one
Individual Part IV 1004F, a Part V 1005F and a Part VI 1006F;The center of second flow control face 200F
Part outside the 2000F of domain can clockwise be divided into chain-dotted line by the second blueline 20002F through second central point 2110F
A shown first area 2001F, second area 2002F, the 3rd region 2003F, the 4th region
2004F, a 5th region 2005F and a 6th region 2006F;The wherein first flow control face of the first flow control element 10F
Central angle alpha 1F that every adjacent two blueline 10002F of 100F are formed is equal in magnitude;Second control of second flow control element 20F
Central angle alpha 2F that every adjacent two blueline 20002F of stream interface 200F are formed is equal in magnitude, and wherein first passage 101F is certainly
The Part I 1001F and Part II 1002F of the first flow control face 100F is extended downwardly;Second channel 102F is from first control
The Part V 1005F of the first flow control face 100F of fluid element 10F is extended downwardly;Third channel 103F is from the first flow control face
The Part IV 1004F of 100F is extended downwardly;Fourth lane 104F is downward from the Part VI 1006F of the first flow control face 100F
Extend;The clematis stem road 106F is extended downwardly from the Part III 1003F of the first flow control face 100F;7th passage 107F certainly should
The first area 2001F of the second flow control face 200F is upwardly extended;With the 9th passage 109F from the of second flow control face 200F
Four region 2004F and the 5th region 2005F are upwardly extended.
As shown in Figure 90 B of accompanying drawing, according to the flow-controlled device of the 17th preferred embodiment of the invention a shell is further included
30F, and the first flow control body 11F of first flow control element 10F of the flow-controlled device further includes one from the top ends
End portion 112F that 111F is extended downwardly, wherein shell 30F include an outer cover body 31F, and wherein outer cover body 31F is certainly
End portion 112F of the first flow control body 11F of first flow control element 10F outwardly and upwardly extends and encloses and is set as one first
Accommodating chamber 310F, so that outer cover body 31F is formed with a medial wall 311F, a lateral wall 312F and an opening
First lead-through opening 1071F phases of upper end open 3101F upward, wherein the first accommodating chamber 310F and the 7th passage 107F
Connection, wherein second flow control element 20F is suitable to the second flow control face 200F and is located at the first accommodating chamber 310F facing downward and is located at
The first flow control face 100F of first flow control element 10F.
As shown in Figure 90 B of accompanying drawing, further, shell 30F has one the 3rd opening 303F, the 4th opening
304F and one the 7th opening 307F, the wherein the 3rd opening 303F is connected with third channel 103F, the 4th opening 304F
It is connected with fourth lane 104F, the 7th opening 307F is connected with first accommodating chamber 310F.In other words, the third channel
103F is extended downwardly from the first flow control face 100F of first flow control element 10F and controlled from the first of first flow control element 10F
End portion 112F of stream body 11F stretches out to be connected with the 3rd opening 303F;Fourth lane 104F from this first
The first flow control face 100F of flow control element 10F is extended downwardly and from the first flow control body 11F's of first flow control element 10F
End portion 112F stretches out to be connected with the 4th opening 304F.Preferably, first flow control of first flow control element 10F
End portion 112F of body 11F is integrally formed with the medial wall 311F of the outer cover body 31F of shell 30F.It is highly preferred that this
Three opening 303F, the 4th opening 304F and the 7th opening 307F are respectively arranged on the outer cover body 31F of shell 30F.
It should be noted that when the flow-controlled device is in first working position, second flow control of second flow control element 20F
Body 21F is respectively by first receiving of the shell 30F of second channel 102F and third channel 103F and the flow-controlled device
Room 310F is spaced;When the flow-controlled device is in second working position, the third channel 103F's and shell 30F of the flow-controlled device
First accommodating chamber 310F is connected, the second flow control body 21F of second flow control element 20F respectively by first passage 101F and
Fourth lane 104F is spaced with first accommodating chamber 310F of the shell 30F of the flow-controlled device;When the flow-controlled device is in this
During three working positions, the first accommodating chamber 310F of the third channel 103F and shell 30F of the flow-controlled device is connected, second control
The second flow control body 21F of fluid element 20F respectively by second channel 102F and fourth lane 104F and the flow-controlled device should
First accommodating chamber 310F of shell 30F is spaced;When the flow-controlled device is in four working positions, the second flow control element
The second flow control body 21F of 20F is by the first accommodating chamber 310F phases of the first passage 101F and shell 30F of the flow-controlled device
Separate.
As shown in Figure 90 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10F
With the anti-wear component 40F between the second flow control element 20F, wherein anti-wear component 40F have a wear-resisting body 41F, wherein
The wear-resisting body 41F has a wearing face for being suitable to be contacted with the second flow control face 200F of second flow control body 21F
410F, wherein wearing face 410F through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20F
Body 21F relative to the first flow control body 11F of first flow control element 10F rotate when produced frictional force, so as to extend the control
The service life of stream device.As shown in Figure 90 B of accompanying drawing, further, size and shape and the flow-controlled device of anti-wear component 40F
The first flow control element 10F the first flow control face 100F it is corresponding and wear-resisting body 41F of anti-wear component 40F is spaced from each other ground
It is formed with a first interface 401F, second interface 402F, the 3rd interface 403F, a 4th interface 404F and
Individual 6th interface 106F, wherein first interface 401F, second interface 402F, the 3rd interface 403F, the 4th interface 404F and
The shape of six interface 106F and size first passage 101F respectively with the flow-controlled device, second channel 102F, third channel 103F,
Fourth lane 104F and clematis stem road 106F are corresponding.Preferably, when anti-wear component 40F is located at first control of the flow-controlled device
When between fluid element 10F and second flow control element 20F, anti-wear component 40F does not occur relative first flow control element 10F's
The rotation of the first flow control body 11F.It is highly preferred that anti-wear component 40F has a smoothed process to reduce its coarse journey
The wearing face 410F of degree.Most preferably, first interface 401F, second interface 402F, the 3rd interface of anti-wear component 40F
403F, the 4th interface 404F and the 6th interface 106F run through up and down respectively the wear-resisting body 41F of anti-wear component 40F, so that
First flow control body 11Fs of the second flow control body 21F of proper second flow control element 20F with respect to first flow control element 10F
During rotation, the first interface 401F of anti-wear component 40F, second interface 402F, the 3rd interface 403F, the 4th interface 404F and
6th interface 106F can respectively selectively by located at the first passage of the first flow control body 11F of first flow control element 10F
101F, second channel 102F, third channel 103F, fourth lane 104F and clematis stem road 106F are first with located at second flow control
The 7th passage 107F and the 9th passage 109F of the second flow control body 21F of part 20F is connected.
As shown in Figure 90 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20F
Upwardly extending driving elements 60F of body 21F and one wherein should from the upwardly extending potted component 70F of driving element 60F
Driving element 60F is suitable to the second flow control body 21F of the second flow control element 20F for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11F of part 10F rotates;Wherein potted component 70F is suitable to the medial wall 311F located at shell 30F
To seal first accommodating chamber 310F, so as to prevent the fluid in first accommodating chamber 310F from the upper of first accommodating chamber 310F
End opening 3101F flows out.Preferably, potted component 70F contacts with driving element 60F and is suitable to the driving element
60F is held in place by, so as to the second flow control body 21F for keeping second flow control element 20F is in appropriate location.
As shown in Figure 90 E to 90F of accompanying drawing, the outer cover body 31F of the shell 30F of the flow-controlled device is from the first flow control element
End portion 112F of the first flow control body 11F of 10F is extended downwardly and enclosed and is set as a second accommodating chamber 320F, wherein this second
Accommodating chamber 320F is located at the lower section of end portion 112F of the first flow control body 11F of first flow control element 10F.Such as the figure of accompanying drawing
Shown in 90F, flow-controlled device of the present invention further includes a flow blocking element 80F located at second accommodating chamber 320F, wherein should be every
Fluid element 80F is extended downwardly from first flow control body 11F, the medial wall of the wherein flow blocking element 80F and shell 30F
311F forms first be located between the medial wall 311F of the outer cover body 31F of the flow blocking element 80F and shell 30F and leads
Flow chamber 801F, flow blocking element 80F encloses and is set as a second diversion chamber 802F, and the wherein first passage 101F of the flow-controlled device certainly should
The first flow control face 100F of the first flow control element 10F is extended downwardly, and is connected with first diversion chamber 801F;The flow-controlled device
Second channel 102F and the clematis stem road 106F are extended downwardly and distinguished from the first flow control face 100F of first flow control element 10F
It is connected with second diversion chamber 802F.Preferably, the first passage 101F of the flow-controlled device from first flow control element 10F
One flow control face 100F extend downwardly and the first flow control body 11F through first flow control element 10F end portion 112F, with
First diversion chamber 801F is connected;The second channel 102F and the clematis stem road 106F of the flow-controlled device is from the first flow control element
The first flow control face 100F of 10F extend downwardly and the first flow control body 11F through first flow control element 10F end portion
112F, to be connected with second diversion chamber 802F respectively.
Figure 90 G to Figure 90 H of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In, the flow-controlled device further includes second conductive channel 1026F1, wherein second conductive channel 1026F1 located at this
The first flow control body 11F1 of one flow control element 10F1;Second conductive channel 1026F1 is extended to from second channel 102F1
The clematis stem road 106F1 is simultaneously connected second channel 102F1 with clematis stem road 106F1, second conductive channel
1026F1 first passage 101F1, third channel 103F1 respectively with the flow-controlled device and fourth lane 104F1 are separated by turn up the soil and are located at
The first flow control body 11F1 of first flow control element 10F1;Second channel 102F1 and clematis stem road 106F1 respectively with this
One passage 101F1, third channel 103F1 and fourth lane 104F1 are separated by turns up the soil located at the first of first flow control element 10F1
Flow control body 11F1;First passage 101F1, third channel 103F1 and fourth lane 104F1 be spaced from each other located at this first
The first flow control body 11F1 of flow control element 10F1;Set with being spaced from each other with the 7th passage 107F1 and the 9th passage 109F1
In the second flow control body 21F1 of second flow control element 20F1;Preferably, the second conductive channel 1026F1 of the flow-controlled device sets
In the inside of the first flow control body 11F1 of first flow control element 10F1, so that second conductive channel 1026F1 is hidden
In the first flow control body 11F1 of first flow control element 10F1, in case the current of fluid stopping Jing second conductive channels 1026F1
The space outerpace of the first flow control element 11F1 of the flow-controlled device is flowed to by second conductive channel 1026F1.
Shown in Figure 90 G to Figure 90 H of accompanying drawing, further, the optional shell 30F1 for implementing flow-controlled device has one the
The one opening 302F1 of opening 301F1 and second, the wherein first passage 101F1 of the flow-controlled device is from the first flow control element
The first flow control face 100F1 of 10F1 extend downwardly and the first flow control body 11F1 from first flow control element 10F1 end portion
112F1 stretches out to be connected with first opening 301F1;Second channel 102F1 is from first flow control element 10F1's
First flow control face 100F1 extend downwardly and the first flow control body 11F1 from first flow control element 10F1 end portion 112F1
Stretch out to be connected with second opening 302F1;Third channel 103F1 is controlled from the first of first flow control element 10F1
Stream interface 100F1 is extended downwardly and from end portion 112F1 of the first flow control body 11F1 of first flow control element 10F1 to extension
Stretch to be connected with the 3rd opening 303F1;With fourth lane 104F1 from the first flow control face of first flow control element 10F1
100F1 extend downwardly and from end portion 112F1 of the first flow control body 11F1 of first flow control element 10F1 stretch out with
It is connected with the 4th opening 304F1;The first accommodating chamber 310F1 is connected with the 7th opening 307F1.Preferably, this
The inner side of end portion 112F1 of the first flow control body 11F1 of one flow control element 10F1 and the outer cover body 31F1 of shell 30F1
Wall 311F1 is integrally formed.It is highly preferred that first opening 301F1, the second opening 302F1, the 3rd opening 303F1, the 4th opening
The opening 307F1 of 304F1 and the 7th are respectively arranged on the outer cover body 31F1 of shell 30F1.
It should be noted that when this it is optional implement flow-controlled device shell 30F1 have this first opening 301F1 and this second
Be open 302F1, and the first passage 101F1 of the flow-controlled device is connected with first opening 301F1;Second channel 102F1 with
When second opening 302F1 is connected, the flow-controlled device will not need the flow blocking element of the flow-controlled device of present pre-ferred embodiments
80F。
Figure 90 I to Figure 90 K of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional flow-controlled device of implementing further include a flow blocking element 80F2 located at second accommodating chamber 320F2, wherein should be every
Fluid element 80F2 is extended downwardly from first flow control body 11F2, the medial wall of the wherein flow blocking element 80F2 and shell 30F2
311F2 forms one and is located between the medial wall 311F2 of the outer cover body 31F2 of the flow blocking element 80F2 and shell 30F2
First diversion chamber 801F2, flow blocking element 80F2 enclose and are set as a second diversion chamber 802F2, and wherein the first of the flow-controlled device is led to
Road 101F2 is extended downwardly from the first flow control face 100F2 of first flow control element 10F, and is connected with first diversion chamber 801F2
It is logical;The second channel 102F2 of the flow-controlled device extend downwardly from the first flow control face 100F2 of first flow control element 10F2 and with this
Second diversion chamber 802F2 is connected.Preferably, the first passage 101F2 of the flow-controlled device from first flow control element 10F2
One flow control face 100F2 extend downwardly and the first flow control body 11F2 through first flow control element 10F2 end portion 112F2,
To be connected with first diversion chamber 801F2;The second channel 102F2 of the flow-controlled device from first flow control element 10F2 first
Flow control face 100F2 extend downwardly and the first flow control body 11F2 through first flow control element 10F2 end portion 112F2, with
It is connected with second diversion chamber 802F2.In this embodiment, the shell 30F2 of the flow-controlled device is no longer provided with the first opening
The opening 302F1 of 301F1 and second.
Figure 90 L to Figure 90 M of accompanying drawing are shown according to another kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, its
In the optional shell 30F3 for implementing flow-controlled device have one first opening 301F3, one second opening 302F3, one the 3rd
Opening 303F3,304F3 and one the 6th opening 306F3 of the 4th opening, the wherein first passage 101F3 of the flow-controlled device is certainly
The first flow control face 100F3 of first flow control element 10F3 is extended downwardly and from the first flow control sheet of first flow control element 10F3
End portion 112F3 of body 11F3 stretches out to be connected with first opening 301F3;Second channel 102F3 from this first
The first flow control face 100F3 of flow control element 10F3 is extended downwardly and from the first flow control body 11F3 of first flow control element 10F3
End portion 112F3 stretch out with this second opening 302F3 be connected;Third channel 103F3 is from the first flow control unit
The first flow control face 100F3 of part 10F3 extend downwardly and the first flow control body 11F3 from first flow control element 10F3 low side
Portion 112F3 stretches out to be connected with the 3rd opening 303F3;Fourth lane 104F3 is from first flow control element 10F3
The first flow control face 100F3 extend downwardly and the first flow control body 11F3 from first flow control element 10F3 end portion
112F3 stretches out to be connected with the 4th opening 304F3;The clematis stem road 106F3 is from first flow control element 10F3's
First flow control face 100F3 extend downwardly and the first flow control body 11F3 from first flow control element 10F3 end portion 112F3
Stretch out to be connected with the 6th opening 306F3;The first accommodating chamber 310F3 is connected with the 7th opening 307F3.It is excellent
Selection of land, first opening 301F3, the second opening 302F3, the 3rd opening 303F3, the 4th opening 304F3, the 6th opening
The opening 307F3 of 306F3 and the 7th are respectively arranged on the outer cover body 31F3 of shell 30F3.
Figure 93 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1F and at least one water treatment facilities, such as unit for treating water 90F, wherein unit for treating water 90F is applied to
Accessing pending water is processed, wherein unit for treating water 90F is connected with flow-controlled device 1F.
As shown in Figure 93 of accompanying drawing, according to the unit for treating water 90F of the 17th preferred embodiment of the invention a water is included
Treatment element 91F, wherein water process element 91F have first open communication 9101F and second open communication
9102F, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91F from unit for treating water 90F
Opening 9101F flow into the water process element 91F and Jing the water process element 91F process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102F of water process element 91F flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91F can be flowed into from second open communication 9102F of the water process element 91F of unit for treating water 90F, and
Water after being processed Jing after water process element 91F process, and the first open communication 9101F stream from water process element 91F
Go out.
It should be noted that first diversion chamber 801F is suitable to connect with the first of the water process element 91F of the water treatment system
Open up a mouthful 9101F to be connected, and second diversion chamber 802F is suitable to the second open communication 9102F with water process element 91F
It is connected.
As shown in Figure 93 of accompanying drawing, according to the water process unit of the unit for treating water 90F of the 17th preferred embodiment of the invention
Part 91F includes an a water process body 911F and liquid collecting element 912F, first connection of wherein water process element 91F
Opening 9101F and the second open communication 9102F are separated by respectively turns up the soil located at water process body 911F, wherein the liquid collecting element
912F extends in the water process body 911F and to the second open communication 9102F direction, and with second open communication
9102F is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101F of water process element 91F
Treatment element 91F, and the water after being processed after the water process body 911F of water process element 91F process, wherein should
Water is suitable to flow to the liquid collecting element 912F and flows out from liquid collecting element 912F after process.In other words, accessing pending water is suitable to certainly
First open communication 9101F of water process element 91F flows into the water of water process element 91F and Jing water process element 91F
Body 911F process is processed, with water after being processed, the current direction liquid collecting element 912F and Jing liquid collecting unit wherein after the process
After part 912F is concentrated, Jing second open communications 9102F flow out.Preferably, liquid collecting element 912F has a tubular structure.
It is highly preferred that make in materials of the water process element 91F of unit for treating water 90F including a water process body 911F containing
At least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 93 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1F of water treatment system is in the first working position, the 7th of the shell 30F that accessing pending water passes through flow-controlled device 1F opens
First conducting of the 7th passage 107F that mouth 307F flows into the first accommodating chamber 310F of shell 30F and passes through flow-controlled device 1F is opened
Mouthful 1071F flows into the 7th passage 107F, and subsequent accessing pending water flows into the first passage 101F of flow-controlled device 1F, and the Jing flow controls
The first diversion chamber 801F of device 1F flows to first open communication 9101F of water process element 91F, and the open communications of Jing first
9101F flows into the water process element 91F and the water Jing after the water process body 911F process of water process element 91F is processed,
Water Jing liquid collectings element 912F flows to second open communication 9102F of water process element 91F wherein after the process, and then Jing should
Second open communication 9102F flows to the second diversion chamber 802F of flow-controlled device 1F, and the second diversion chamber of Jing 802F inflows should with after
The second channel 102F of flow-controlled device 1F, then the threeway of the 9th passage 109F guiding inflow flow-controlled device 1F of Jing flow-controlled device 1F
Road 103F, and the 3rd opening 303F of Jing shell 30F flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1F is in the second working position, the 7th opening 307F of the shell 30F that accessing pending water passes through flow-controlled device 1F flows into the shell
The first accommodating chamber 310F of 30F and respectively by the first lead-through opening 1071F of the 7th passage 107F of flow-controlled device 1F and the
Triple channel 103F flows into the 7th passage 107F and third channel 103F, wherein flowing into the pending current of the 7th passage 107F
Enter the clematis stem road 106F of flow-controlled device 1F, and the second diversion chamber 802F of Jing flow-controlled device 1F flows to water process element 91F,
Liquid collecting element 912F is flowed into second open communication 9102F of Jing water process element 91F, then from liquid collecting element 912F
Water process element 91F, and the water process body 911F of back flush water process element 91F are flowed into, what is produced after flushing is useless
First open communication 9101F of liquid Jing water process element 91F flows out, subsequently the first diversion chamber 801F of Jing flow-controlled devices 1F
The first passage 101F of flow-controlled device 1F is flowed into, and the 9th passage 109F guiding of Jing flow-controlled device 1F flows through flow-controlled device 1F's
Fourth lane 104F, then the 4th opening 304F outflows of Jing shells 30F, wherein the water Jing for flowing into third channel 103F should
The 3rd opening 303F of shell 30F is flowed out so that user is used;When the flow-controlled device 1F of the water treatment system is in the 3rd work
During position, the 7th opening 307F of the shell 30F that accessing pending water passes through flow-controlled device 1F flows into first accommodating chamber of shell 30F
310F simultaneously respectively should by the first lead-through opening 1071F and third channel 103F inflow of the 7th passage 107F of flow-controlled device 1F
7th passage 107F and third channel 103F, wherein the accessing pending water for flowing into the 7th passage 107F flows into the of flow-controlled device 1F
One passage 101F, and the first diversion chamber 801F of Jing flow-controlled device 1F flows into first open communication of water process element 91F
9101F, and the positive water process body 911F for rinsing water process element 91F, the waste liquid Jing of generation liquid collecting elements after flushing
912F flows to second open communication 9102F of water process element 91F, and Jing second open communications 9102F flow into the flow control
The second diversion chamber 802F of device 1F, then Jing second diversion chamber 802F flow into the second channel 102F of flow-controlled device 1F, then Jing
Fourth lane 104F of the 9th passage 109F pilot flow direction flow-controlled device 1F of flow-controlled device 1F, then the of Jing shells 30F
Four opening 304F flow out, wherein the 3rd opening 303F for flowing into the water Jing of third channel 103F shell 30F is flowed out for making
User uses;When the flow-controlled device 1F of the water treatment system is in four working positions, accessing pending water is by the outer of flow-controlled device 1F
The 7th passage that the 7th opening 307F of shell 30F flows into the first accommodating chamber 310F of shell 30F and passes through flow-controlled device 1F
The first lead-through opening 1071F of 107F flows into the 7th passage 107F, and subsequent accessing pending water flows into the threeway of flow-controlled device 1F
The 3rd opening 303F of road 103F, Jing shell 30F flows out and uses for user, the first passage 101F of flow-controlled device 1F with
9th passage 109F is connected, and the second channel 102F and clematis stem road 106F of flow-controlled device 1F is controlled by the second of flow-controlled device 1F
The second flow control body 21F obstructions of fluid element 20F, in other words, the water process element 91F and first accommodating chamber 310F are separated by
From.
It should be noted that being according to of the invention preferable when the flow-controlled device 1F of the water treatment system is as shown in Figure 90 G of accompanying drawing
During a kind of optional enforcement of the flow-controlled device of embodiment, shell 30F1 has one first opening 301F1, second opening
The of 302F1, one the 3rd opening 303F1,304F1 and one the 7th opening 307F1 of the 4th opening, the wherein flow-controlled device
One passage 101F1 is extended downwardly and from the first flow control element from the first flow control face 100F1 of first flow control element 10F1
End portion 112F1 of the first flow control body 11F1 of 10F1 stretches out to be connected with first opening 301F1;This second lead to
Road 102F1 is extended downwardly and from first flow control element 10F1's from the first flow control face 100F1 of first flow control element 10F1
End portion 112F1 of the first flow control body 11F1 stretches out to be connected with second opening 302F1;The third channel
103F1 is extended downwardly and from the of first flow control element 10F1 from the first flow control face 100F1 of first flow control element 10F1
End portion 112F1 of one flow control body 11F1 stretches out to be connected with the 3rd opening 303F1;Fourth lane 104F1
Extend downwardly and from first flow control of first flow control element 10F1 from the first flow control face 100F1 of first flow control element 10F1
End portion 112F1 of body 11F1 stretches out to be connected with the 4th opening 304F1;The first accommodating chamber 310F1 with should
7th opening 307F1 is connected.
It is understood that when further there is the shell 30F1 of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening that the first opening 301F1 and that road 101F1 is connected is connected with the second channel 102F1 of the flow-controlled device
During 302F1, first open communication 9101F of the water process element 91F of the unit for treating water 90F of the water treatment system is suitable to and this
First opening 301F1 is connected, and connects out with the second of the water process element 91F of the unit for treating water 90F of the water treatment system
Mouth 9102F is suitable to be connected with second opening 302F1.
It should be noted that because the flow-controlled device further includes one by second channel 102F1 and the clematis stem road
The second conductive channel 1026F1 that 106F1 is connected, therefore when the flow-controlled device 1F1 of the water treatment system is in the first working position
When, the 7th opening 307F1 of the shell 30F1 that accessing pending water passes through flow-controlled device 1F1 flows into first accommodating chamber of shell 30F1
310F1 and the first lead-through opening 1071F1 by the 7th passage 107F1 of flow-controlled device 1F1 flows into the 7th passage 107F1,
Subsequently accessing pending water flows into the first passage 101F1 of flow-controlled device 1F1, then the first opening 301F1 of Jing shell 30F1 flows out,
And first open communication 9101F of water process element 91F is flowed to, and open communications 9101F of Jing first flow into water process unit
Part 91F and Jing after the water process body 911F process of water process element 91F is processed water, water Jing collection wherein after the process
Liquid element 912F flows to second open communication 9102F of water process element 91F, then Jing the second open communication 9102F streams
To the second opening 302F1 of the shell 30F1 of flow-controlled device 1F1, then flow into the second channel 102F1 of flow-controlled device 1F1, then Jing
The third channel 103F1 of the 9th passage 109F1 guiding inflow flow-controlled device 1F1 of flow-controlled device 1F1, and Jing shell 30F1
3rd opening 303F1 is flowed out so that user is used;Wherein when the flow-controlled device 1F1 of the water treatment system is in the second working position
When, the 7th opening 307F1 of the shell 30F1 that accessing pending water passes through flow-controlled device 1F1 flows into first accommodating chamber of shell 30F1
310F1 and respectively by the first lead-through opening 1071F1 and third channel 103F1 of the 7th passage 107F1 of flow-controlled device 1F1
The 7th passage 107F1 and third channel 103F1 is flowed into, wherein the accessing pending water for flowing into the 7th passage 107F1 flows into the control
The clematis stem road 106F1 of device 1F1 is flowed, then second conductive channel 1026F1 of Jing flow-controlled device 1F1 flows into the second channel
102F1, then the second opening 302F1 of Jing shells 30F1 flow out, and flow to water process element 91F, and the Jing water process
Second open communication 9102F of element 91F flows into liquid collecting element 912F, then flows into the water process from liquid collecting element 912F
Element 91F, and the water process body 911F of back flush water process element 91F, the waste liquid Jing of generation water process after flushing
First open communication 9101F of element 91F flows out, and the first opening 301F1 of the shell 30F1 of Jing flow-controlled device 1F1 flows into the control
The first passage 101F1 of stream device 1F1, then the 9th passage 109F1 guiding of Jing flow-controlled device 1F1 flows into the of flow-controlled device 1F1
Four-way 104F1, then the 4th opening 304F1 outflows of Jing shells 30F1, wherein flowing into the water Jing of third channel 103F1
The 3rd opening 303F1 of shell 30F1 is flowed out so that user is used;When the flow-controlled device 1F1 of the water treatment system is in the 3rd
During working position, the 7th opening 307F1 of the shell 30F1 that accessing pending water passes through flow-controlled device 1F1 flows into the first of shell 30F1
Accommodating chamber 310F1 and respectively by the first lead-through opening 1071F1 and third channel of the 7th passage 107F1 of flow-controlled device 1F1
103F1 flows into the 7th passage 107F1 and third channel 103F1, wherein the accessing pending water for flowing into the 7th passage 107F1 is flowed into
The first passage 101F1 of flow-controlled device 1F1, then the first opening 301F1 outflows of Jing shell 30F1, and flow into water process unit
First open communication 9101F of part 91F, and the positive water process body 911F for rinsing water process element 91F, produce after flushing
Waste liquid Jing liquid collecting element 912F flow to second open communication 9102F of water process element 91F, and Jing second connections are opened
Mouth 9102F flows into the second opening 302F1 of the shell 30F1 of flow-controlled device 1F1, then the second channel for flowing into flow-controlled device 1F1
102F1, then fourth lane 104F1 of the 9th passage 109F1 pilot flow direction flow-controlled device 1F1 of Jing flow-controlled device 1F1, Ran Houjing
The 4th opening 304F1 of shell 30F1 flows out, wherein the flow into the water Jing of third channel 103F1 shell 30F1 the 3rd opens
Mouth 303F1 is flowed out so that user is used;When the flow-controlled device 1F1 of the water treatment system is in four working positions, accessing pending water
Flow into the first accommodating chamber 310F1 of shell 30F1 and pass through by the 7th opening 307F1 of the shell 30F1 of flow-controlled device 1F1
The first lead-through opening 1071F1 of the 7th passage 107F1 of flow-controlled device 1F1 flows into the 7th passage 107F1, subsequently pending
Water flows into the third channel 103F1 of flow-controlled device 1F1, and the 3rd opening 303F1 of Jing shell 30F1 is flowed out so that user makes
With the first passage 101F1 of flow-controlled device 1F1 is connected with the 9th passage 109F1, the second channel 102F1 of flow-controlled device 1F1
Blocked by the second flow control body 21F1 of the second flow control element 20F1 of flow-controlled device 1F1 with clematis stem road 106F1, in other words
Say, the water process element 91F and first accommodating chamber 310F1 are isolated.
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
Flow-controlled device 1F positions of the second flow control element 20F with respect to first flow control element 10F so that the flow-controlled device is located respectively
In different working positions, to adjust and control the working condition of the water treatment system, so that user can be by present invention control
The flowing control of the waste water that water and backwash are produced after flowing device 1F to realize accessing pending water, the process to water treatment system of the present invention
System.Wherein when user adjusts flow-controlled device of the present invention is in first working position, water treatment system of the present invention is suitable to treat place
Reason water processed and processed after after water, and the process water be suitable to the shell of the flow-controlled device by the water treatment system
The 3rd opening 303F of 30F flows out, so that user is used;Second working position is in when user adjusts flow-controlled device of the present invention
When, water treatment system of the present invention be suitable to adjust the accessing pending water water process element 91F of the water treatment system is reversely rushed
Wash, and the waste water that obtains of back flush is suitable to the 4th opening of the shell 30F of the flow-controlled device from the water treatment system and flows out, together
When the accessing pending water Jing flow-controlled device the 3rd opening 303F of shell 30F flow out;It is in when user adjusts flow-controlled device of the present invention
During three working positions, water treatment system of the present invention is suitable to adjust water process element of the accessing pending water to the water treatment system
91F carries out positive flushing, and positive rinses the waste water for obtaining is suitable to the shell 30F of the flow-controlled device from the water treatment system the
Four opening 304F flow out, while the 3rd opening 303F of the shell 30F of the accessing pending water Jing flow-controlled device flows out;When user is adjusted
When flow-controlled device of the present invention is in four working positions, water treatment system of the present invention is suitable to adjust the accessing pending water from the flow-controlled device
The 3rd opening 303F of shell 30F flows out, so that user is used, simultaneously because the of water process element 91F and the flow-controlled device
One accommodating chamber 310F is isolated, in order to user in the state of not cutting off the water more change water to process element 91F.That is, working as
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, water process of the present invention
System is suitable to adjust threeth opening 303F outflow of the accessing pending water from the shell 3F of the flow-controlled device.Therefore, when flow control of the present invention
When the water treatment system of device is in the first working position, the water treatment system can be processed accessing pending water and provided for user
Water after process, in the second working position or the 3rd working position, the water treatment system can carried out reversely or just to the water process element
While rinsing, accessing pending water is provided for user, the lasting water supply function persistently uses water needs suitable for meeting user,
Especially needs are used in some occasions that can not cut off the water, in four working positions, the water treatment system sustainable supply is treated
Advantageously more change water to process element 91F is enabled a user to while processing water.
With reference to shown in Figure 94 A to Figure 97 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 18th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10G and one
Dynamicly located at the second flow control element 20G of first flow control element 10G, wherein the first flow control element 10G includes one first
Flow control body 11G, the first flow control body 11G include top ends 111G, and wherein top ends 111G form one first
Flow control face 100G;Second flow control element 20G includes that a second flow control body 21G, the second flow control body 21G have one
, from the upwardly extending high end 212G of bottom 211G, bottom 211G forms one second control for bottom 211G and one
Stream interface 200G;The wherein first flow control face 100G of first flow control element 10G be suitable to second flow control element 20G this second
Flow control face 200G contacts.
As shown in Figure 94 B to 94D of accompanying drawing, further, as shown in Figure 95 A to 95D of accompanying drawing, the first of the flow-controlled device
Top ends 111G of flow control element 10G include a first central part 1111G, first edge portion 1112G and an extension
The first pars intermedia 1113G between the first central part 1111G and first edge portion 1112G, second flow control element 20G
Bottom 211G include that the second central part 2111G, a second edge portion 2112G and one extend in second center
The second pars intermedia 2113G between portion 2111G and second edge portion 2112G, the wherein flow-controlled device have a first passage
101G, second channel 102G, third channel 103G, the 7th passage 107G, a 9th passage 109G and
Individual tenth passage 1010G, wherein first passage 101G, second channel 102G and third channel 103G are respectively arranged on first control
The first flow control body 11G of fluid element 10G;7th passage 107G, the 9th passage 109G and the tenth passage 1010G are respectively arranged on
Second flow control body 21G, wherein first passage 101G, second channel 102G and third channel 103G are respectively from first control
The first flow control face 100G of the first flow control body 11G of fluid element 10G is extended downwardly;Wherein the 7th passage 107G from this second
The second flow control face 200G of the bottom 211G of flow control body 21G is upwardly extended and from the bottom of second flow control body 21G
The second pars intermedia 2113G of 211G stretches out and forms first lead-through opening being connected with space outerpace all the time
1071G;9th passage 109G is extended upwardly to from the second flow control face 200G of the bottom 211G of second flow control body 21G
The high end 212G of the second flow control body 21G of second flow control element 20G;Tenth passage 1010G is from the second flow control sheet
The second flow control face 200G of the bottom 211G of body 21G is upwardly extended and through the second flow control sheet of second flow control element 20G
Body 21G.In other words, the first lead-through opening 1071G of the 7th passage 107G can keep the 7th passage 107G all the time with outward
Portion space, is especially connected with the space outerpace of flow-controlled device, and the tenth passage 1010G is from the bottom of second flow control body 21G
The second flow control face 200G of end 211G is upwardly extended and is connected with the upper outer space of second flow control element 20G.It is excellent
Selection of land, first passage 101G, the second channel 102G of the flow-controlled device and third channel 103G are respectively from first flow control body 11G
The first pars intermedia 1113G of top ends 111G extend out to first edge portions 1112G of top ends 111G;The flow control
7th passage 107G of device is from the middle of the second of the bottom 211G of the second flow control body 21G of second flow control element 20G
Portion 2113G stretches out;9th passage 109G of the flow-controlled device is from the second flow control body 21G's of second flow control element 20G
The second pars intermedia 2113G of bottom 211G extends out to the second edge portion 2112G of bottom 211G;The flow-controlled device
Second pars intermedias of the tenth passage 1010G from the bottom 211G of the second flow control body 21G of second flow control element 20G
2113G extends out to the second edge portion 2112G of bottom 211G.
As shown in Figure 96 A to Figure 96 C of accompanying drawing, the second flow control element 20G can be rotated relative to the first flow control element 10G
So that the flow-controlled device has first working position, second working position and the 3rd working position, wherein working as flow control
When device is in the first working position, the 7th passage 107G of flow-controlled device is connected with first passage 101G, the 9th passage of flow-controlled device
109G is connected respectively with second channel 102G and third channel 103G;When flow-controlled device is in the second working position, flow-controlled device
7th passage 107G is connected respectively with second channel 102G and third channel 103G, the tenth passage 1010G and first passage
101G is connected;When flow-controlled device is in three working positions, the 7th passage 107G of flow-controlled device is connected with first passage 101G,
9th passage 109G of flow-controlled device is connected respectively with first passage 101G and third channel 103G, the tenth passage of the flow-controlled device
1010G is connected with second channel 102G.
Preferably, when flow-controlled device is in the second working position, the 9th passage 109G and the first passage 101G phases of flow-controlled device
Connection.
It is highly preferred that when flow-controlled device is in the first working position, the tenth passage 1010G of the flow-controlled device is by the first flow control unit
The first flow control body 11G obstructions of part 10G, the second flow control body 21G of second flow control element 20G is respectively by the second channel
The upper outer spaced apart of 102G and third channel 103G and the flow-controlled device.
It should be noted that the first passage 101G of the flow-controlled device, second channel 102G and third channel 103G are spaced from each other
First flow control body 11G of the ground located at the first flow control element;7th passage 107G, the 9th passage 109G and the tenth passage
1010G be spaced from each other located at second flow control element 20G the second flow control body 21G.
As shown in Figure 95 A to 95D of accompanying drawing, the first flow control face 100G of the first flow control element 10G of the flow-controlled device and
The second flow control face 200G of two flow control element 20G is circle, first passage 101G, the second channel 102G of the flow-controlled device and
Triple channel 103G is deasil arranged in the first flow control body 11G of first flow control element 10G with this order;The flow-controlled device
7th passage 107G, the tenth passage 1010G and the 9th passage 109G are deasil arranged in the second flow control element with this order
The second flow control body 21G of 20G.Alternatively, the flow-controlled device sets first passage 101G, second channel 102G and third channel
103G can also this order be widdershins arranged in the first flow control body 11G of first flow control element 10G;While the flow-controlled device
The 7th passage 107G, the tenth passage 1010G and the 9th passage 109G second flow control unit is widdershins arranged in this order
The second flow control body 21G of part 20G.
Preferably, first passage 101G, second channel 102G and third channel 103G are radially located at first control
The first flow control face 100G of fluid element 10G, and the 7th passage 107G, the tenth passage 1010G and the 9th passage 109G are along footpath
To the second flow control face 200G located at second flow control element 20G.
It is highly preferred that first passage 101G is extended downwardly from the first flow control face 100G of first flow control element 10G;Should
Second channel 102G is extended downwardly from the first flow control face 100G of first flow control element 10G;Third channel 103G from this
The first flow control face 100G of one flow control element 10G is extended downwardly and stretched out.Further, second flow control element 20G
The shapes and sizes of the second flow control face 200G are designed according to the first flow control face 100G of first flow control element 10G, so that should
The second flow control face 200G of the second flow control element 20G is suitable to the first flow control face 100G located at first flow control element 10G, and
The second flow control element 20G relative to the first flow control element 10G rotate when, adjust located at first flow control element 10G first control
First passage 101G, the second channel 102G and third channel 103G of stream body 11G respectively with located at second flow control element 20G
The second flow control body 21G the 7th passage 107G, the connection of the tenth passage 1010G and the 9th passage 109G, to control water
Stream flows in the different passages of flow-controlled device of the present invention.
As shown in accompanying drawing 95A to Figure 95 D, the first flow control face 100G of the first flow control element 10G of the flow-controlled device has one
Core 1000G shown in individual figure chain lines, wherein core 1000G located at first flow control element 10G the
First central part 1111G of top ends 111G of one flow control body 11G;Second control of the second flow control element 20G of the flow-controlled device
Stream interface 200G has the central area 2000G shown in a figure chain lines, and wherein central area 2000G is located at second control
First control of the second central part 2111G of the bottom 211G of the second flow control body 21G of fluid element 20G, the wherein flow-controlled device
The core 1000G of the first flow control face 100G of fluid element 10G has first nodal point 1110G, and second flow control
The central area 2000G of the second flow control face 200G of element 20G has a second central point 2110G, wherein first flow control
Part outside the core 1000G of face 100G can be by five the first bluelines through first nodal point 1110G
10002G be divided into clockwise a Part I 1001G, Part II 1002G, Part III 1003G, one
A four part 1004G and Part V 1005G;Part outside the central area 2000G of second flow control face 200G is by Jing
Cross second central point 2110G five the second blueline 20002G be divided into clockwise a first area 2001G, one second
Region 2002G, the 3rd region 2003G, a 4th region 2004G and a 5th region 2005G;Wherein first control
Central angle alpha 1G that the every adjacent two first blueline 10002G of the first flow control face 100G of fluid element 10G are formed is equal in magnitude;
Central angle alpha 2G that the every adjacent two second blueline 20002G of the second flow control face 200G of second flow control element 20G are formed
Equal in magnitude, wherein first passage 101G is downward from the Part I 1001G and Part II 1002G of the first flow control face 100G
Extend;Second channel 102G is from the Part IV 1004G of the first flow control face 100G of first flow control element 10G to downward
Stretch;Third channel 103G is extended downwardly from the Part V 1005G of the first flow control face 100G;7th passage 107G from this
The first area 2001G and second area 2002G of two flow control face 200G is upwardly extended;9th passage 109G is from second flow control
The 4th region 2004G of face 200G and the 5th region 2005G are upwardly extended;Tenth passage 1010G is from the second flow control face
The 3rd region 2003G of 200G is upwardly extended.
As shown in Figure 94 B and Figure 97 of accompanying drawing, according to the flow-controlled device of the 18th preferred embodiment of the invention one is further included
Individual shell 30G, and the first flow control body 11G of first flow control element 10G of the flow-controlled device further includes one from the top
End portion 112G that end 111G is extended downwardly, wherein shell 30G include an outer cover body 31G, the wherein outer cover body
31G outwardly and upwardly extends and encloses and is set as one from end portion 112G of the first flow control body 11G of first flow control element 10G
First accommodating chamber 310G, so that outer cover body 31G is formed with a medial wall 311G, a lateral wall 312G and one
First lead-through opening of opening up upper end open 3101G, wherein the first accommodating chamber 310G and the 7th passage 107G
1071G is connected, and wherein second flow control element 20G is suitable to the second flow control face 200G and is located at first accommodating chamber 310G facing downward
And located at the first flow control face 100G of first flow control element 10G.
It should be noted that shell 30G has 303G and one the 7th opening 307G of one the 3rd opening, wherein this
Three opening 303G are connected with third channel 103G, and the 7th opening 307G is connected with first accommodating chamber 310G.In other words,
Third channel 103G is extended downwardly and from the first flow control element from the first flow control face 100G of first flow control element 10G
End portion 112G of the first flow control body 11G of 10G stretches out to be connected with the 3rd opening 303G, wherein when the flow control
When device is in first working position, the second flow control body 21G of second flow control element 20G is respectively by second channel 102G
It is spaced with first accommodating chamber 310G of the flow-controlled device with third channel 103G.Preferably, first flow control element 10G
End portion 112G of the first flow control body 11G be integrally formed with the medial wall 311G of the outer cover body 31G of shell 30G.More
Preferably, the 3rd opening 303G and the 7th opening 307G are respectively arranged on the outer cover body 31G of shell 30G.
It is understandable that when flow-controlled device is in the first working position, the tenth passage 1010G of the flow-controlled device is by the first control
The first flow control body 11G obstructions of fluid element 10G, the second flow control body 21G of second flow control element 20G respectively by this second
The first accommodating chamber 310G of the passage 102G and third channel 103G and shell 30G of the flow-controlled device is spaced.
As shown in Figure 94 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10G
With the anti-wear component 40G between the second flow control element 20G, wherein anti-wear component 40G have a wear-resisting body 41G, wherein
The wear-resisting body 41G has a wearing face for being suitable to be contacted with the second flow control face 200G of second flow control body 21G
410G, wherein wearing face 410G through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20G
Body 21G relative to the first flow control body 11G of first flow control element 10G rotate when produced frictional force, so as to extend the control
The service life of stream device.Further, the first flow control element 10G of the size and shape of anti-wear component 40G and the flow-controlled device
The first flow control face 100G it is corresponding and wear-resisting body 41G of anti-wear component 40G is formed with one first and connects with being spaced from each other
Mouthful 401G, second interface 402G and a 3rd interface 403G, wherein first interface 401G, second interface 402G and the
The shape of three interface 403G is with size respectively according to the first passage 101G of the flow-controlled device, second channel 102G and third channel 103G
And the design forming and first passage 101G with the flow-controlled device, second channel 102G and third channel 103G are connected.Preferably,
When anti-wear component 40G is between the first flow control element 10G and second flow control element 20G of the flow-controlled device, this is resistance to
There is no the rotation of the first flow control body 11G relative to first flow control element 10G in mill element 40G.It is highly preferred that the wear-resisting unit
Part 40G has a smoothed process to reduce the wearing face 410G of its degree of roughness.Most preferably, anti-wear component 40G
First interface 401G, second interface 402G and the 3rd interface 403G run through the anti-wear component up and down with being spaced from each other respectively
The wear-resisting body 41G of 40G, so that when the relative first flow control units of the second flow control body 21G of second flow control element 20G
When the first flow control body 11G of part 10G is rotated, the first interface 401G of anti-wear component 40G, second interface 402G and the 3rd
Interface 403G respectively selectively by located at the first passage 101G of the first flow control body 11G of first flow control element 10G, the
7th passage of two passage 102G and third channel 103G and the second flow control body 21G located at second flow control element 20G
107G, the 9th passage 109G and the tenth passage 1010G are connected.
As shown in Figure 94 B of accompanying drawing, the flow-controlled device further includes a diversion member 50G, wherein diversion member 50G
Including a water conservancy diversion body 51G, wherein water conservancy diversion body 51G encloses and is set as a first flow-guiding channel 510G, wherein the water conservancy diversion unit
The water conservancy diversion body 51G of part 50G is upwardly extended and the diversion member from the second flow control body 21G of second flow control element 20G
The first flow-guiding channel 510G of 50G is connected with the tenth passage 1010G of the flow-controlled device.
As shown in Figure 94 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20G
Upwardly extending driving elements 60G of body 21G and one wherein should from the upwardly extending potted component 70G of driving element 60G
Driving element 60G is suitable to the second flow control body 21G of the second flow control element 20G for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11G of part 10G rotates;Wherein potted component 70G is suitable to the outer cover body located at shell 30G
The medial wall 311G of 31G to seal first accommodating chamber 310G, so as to prevent the water in first accommodating chamber 310G from this first
Upper end open 3101G of accommodating chamber 310G flows out.Preferably, potted component 70G contacts and is suitable to driving element 60G
Driving element 60G is held in place by, so as to the second flow control body 21G for keeping second flow control element 20G is in
Appropriate location.Preferably, driving element 60G of the flow-controlled device is integrally formed with the water conservancy diversion body 51G of diversion member 50G.
As shown in Figure 94 E to Figure 94 F of accompanying drawing, the outer cover body 31G of the shell 30G of the flow-controlled device is from the first flow control unit
End portion 112G of the first flow control body 11G of part 10G is extended downwardly and enclosed and is set as a second accommodating chamber 320G, wherein this
Two accommodating chamber 320G are located at the lower section of end portion 112G of the first flow control body 11G of first flow control element 10G.As accompanying drawing it
Shown in Figure 94 F, flow-controlled device of the present invention further includes a flow blocking element 80G located at second accommodating chamber 320G, wherein should
Flow blocking element 80G is extended downwardly from first flow control body 11G, the outer cover body of the wherein flow blocking element 80G and shell 30G
31G forms a first diversion chamber 801G being located between the flow blocking element 80G and the outer cover body 31G of shell 30G and is somebody's turn to do
Flow blocking element 80G encloses and is set as a second diversion chamber 802G, and the wherein first passage 101G of the flow-controlled device is from the first flow control unit
The first flow control face 100G of part 1001G is extended downwardly, and is connected with first diversion chamber 801G;The second channel of the flow-controlled device
102G is extended downwardly from the first flow control face 100G of first flow control element 10G and is connected with second diversion chamber 802G.It is excellent
Selection of land, the first passage 101G of the flow-controlled device is extended downwardly and run through from the first flow control face 100G of first flow control element 10G
End portion 112G of the first flow control body 11G of first flow control element 10G, to be connected with first diversion chamber 801G;Should
The second channel 102G of flow-controlled device is extended downwardly and through first control from the first flow control face 100G of first flow control element 10G
End portion 112G of the first flow control body 11G of fluid element 10G, to be connected with second diversion chamber 802G.
Figure 94 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30G for implementing flow-controlled device further has 301G and one second opening 302G of one first opening, the wherein flow-controlled device
First passage 101G extend downwardly from the first flow control face 100G of first flow control element 10G and from the first flow control element
End portion 112G of the first flow control body 11G of 10G stretches out to be connected with first opening 301G;The second channel
102G is extended downwardly from the first flow control face 100G of first flow control element 10G and controlled from the first of first flow control element 10G
End portion 112G of stream body 11G stretches out to be connected with second opening 302G;Third channel 103G from this first
The first flow control face 100G of flow control element 10G is extended downwardly and from the first flow control body 11G's of first flow control element 10G
End portion 112G stretches out to be connected with the 3rd opening 303G;The first accommodating chamber 310G and the 7th opening 307G phases
Connection.Preferably, the shell sheet of end portion 112G of the first flow control body 11G of first flow control element 10G and shell 30G
The medial wall 311G of body 31G is integrally formed.It is highly preferred that first opening 301G, the second opening 302G and the 3rd opening 303G
With the outer cover body 31G that the 7th opening 307G is respectively arranged on shell 30G.
It should be noted that when the shell 30G of the flow-controlled device has the first opening 301G and second opening 302G, and
The first passage 101G of the flow-controlled device is connected with first opening 301G;Second channel 102G and the second opening 302G phases
During connection, the flow-controlled device will not need the flow blocking element 80G of the flow-controlled device of present pre-ferred embodiments.
Figure 95 E to Figure 95 G such as accompanying drawing show can according to the another kind of the flow-controlled device of the 18th preferred embodiment of the invention
Choosing is implemented, and wherein the flow-controlled device further includes a top located at the first flow control body 11G of first flow control element 10G
Fourth lane 104G of the first central part 1111G of portion 111G, wherein fourth lane 104G from first flow control face 100G to
Lower extension;Tenth passage 1010G of the flow-controlled device is from the bottom of the second flow control body 21G of second flow control element 20G
The second pars intermedia 2113G of 211G to the second central part 2111G of bottom 211G extends, and being somebody's turn to do from bottom 211G
Second central part 2111G and second pars intermedia 2113G extend upwardly to the high end 212G of second flow control body 21G.It is excellent
Selection of land, fourth lane 104G is extended downwardly from the core 1000G of first flow control face 100G;The tenth of the flow-controlled device
Passage 1010G is upwardly extended from the 3rd region 2003G and central area 2000G of second flow control face 200G.It is highly preferred that
First passage 101G is extended downwardly and outwardly from the first flow control face 100G of first flow control element 10G;The second channel
102G is extended downwardly and outwardly from the first flow control face 100G of first flow control element 10G;Fourth lane 104G from this first
Flow control face 100G is extended downwardly and outwardly, second flow control bodies of wherein the tenth passage 1010G from second flow control element 20G
The second pars intermedia 2113G of the bottom 211G of 21G extends inwardly into the second central part 2111G of bottom 211G.
Significantly, since the flow-controlled device further includes first control located at first flow control element 10G
Fourth lane 104G and the tenth passage 1010G of the flow-controlled device of the first central part 1111G of top ends 111G of stream body 11G
The second central part 2111G is extended into from second pars intermedia 2113G of bottom 211G and from the second flow control element
The second flow control face 200G of 20G extends upwardly to the high end 212G of second flow control body 21G.In other words, the tenth leads to
Second central parts of road 1010G from the bottom 211G of second flow control body 21G of second flow control element 20G
2111G extends out to the second edge portion 2112G of bottom 211G.So that when the flow-controlled device is in the first work
When position, the second working position and three working positions, fourth lane 104G is connected with the tenth passage 1010G, and in flow-controlled device
In the first working position when, the second flow control body 21G of second flow control element 20G respectively by second channel 102G, the 3rd
Passage 103G and fourth lane 104G are spaced with first accommodating chamber 310G of the shell 30G of the flow-controlled device;In flow-controlled device
In the second working position when, the second flow control body 21G of second flow control element 20G is respectively by first passage 101G and the 4th
First accommodating chamber 310G of the passage 104G and shell 30G of the flow-controlled device is spaced;The 3rd working position is in flow-controlled device
When, the second flow control body 21G of second flow control element 20G respectively by second channel 102G and fourth lane 104G respectively with
First accommodating chamber 310G of the shell 30G of the flow-controlled device is spaced.Preferably, fourth lane 104G respectively with this first
Passage 101G, second channel 102G and third channel 103G be spaced from each other located at first flow control element 10G the first flow control
Body 11G.
It is understood that when the flow-controlled device further includes first flow control located at first flow control element 10G
During fourth lane 104G of top ends 111G of body 11G, the anti-wear component 40G of the flow-controlled device further has one the 4th and connects
Mouth 404G, the wherein shape of the 4th interface 404G is corresponding with fourth lane 104G of the flow-controlled device respectively with size, and should
4th interface 404G is connected with fourth lane 104G.
Figure 97 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1G and at least one water treatment facilities, such as unit for treating water 90G, wherein unit for treating water 90G is applied to
Accessing pending water is processed, wherein unit for treating water 90G is connected with flow-controlled device 1G.
As shown in Figure 97 of accompanying drawing, according to the unit for treating water 90G of the 18th preferred embodiment of the invention a water is included
Treatment element 91G, wherein water process element 91G have first open communication 9101G and second open communication
9102G, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91G from unit for treating water 90G
Opening 9101G flow into the water process element 91G and Jing the water process element 91G process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102G of water process element 91G flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91G can be flowed into from second open communication 9102G of the water process element 91G of unit for treating water 90G, and
Water after being processed Jing after water process element 91G process, and the first open communication 9101G stream from water process element 91G
Go out.
It should be noted that first diversion chamber 801G is suitable to connect with the first of the water process element 91G of the water treatment system
Open up a mouthful 9101G to be connected, and second diversion chamber 802G is suitable to the second open communication 9102G with water process element 91G
It is connected.
As shown in Figure 97 of accompanying drawing, according to the water process unit of the unit for treating water 90G of the 18th preferred embodiment of the invention
Part 91G includes an a water process body 911G and liquid collecting element 912G, first connection of wherein water process element 91G
Opening 9101G and the second open communication 9102G are separated by respectively turns up the soil located at water process body 911G, wherein the liquid collecting element
912G extends in the water process body 911G and to the second open communication 9102G direction, and with second open communication
9102G is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101G of water process element 91G
Treatment element 91G, and the water after being processed after the water process body 911G of water process element 91G process, wherein should
Water is suitable to flow to the liquid collecting element 912G and flows out from liquid collecting element 912G after process.In other words, accessing pending water is suitable to certainly
First open communication 9101G of water process element 91G flows into the water of water process element 91G and Jing water process element 91G
Body 911G process is processed, with water after being processed, the current direction liquid collecting element 912G and Jing liquid collecting unit wherein after the process
After part 912G is concentrated, Jing second open communications 9102G flow out.Preferably, liquid collecting element 912G has a tubular structure.
It is highly preferred that make in materials of the water process element 91G of unit for treating water 90G including a water process body 911G containing
At least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 97 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when this
When the flow-controlled device 1G of water treatment system is in the first working position, the 7th of the shell 30G that accessing pending water passes through flow-controlled device 1G opens
First conducting of the 7th passage 107G that mouth 307G flows into the first accommodating chamber 310G of shell 30G and passes through flow-controlled device 1G is opened
Mouthful 1071G flows into the 7th passage 107G, and subsequent accessing pending water flows into the first passage 101G of flow-controlled device 1G, and the Jing flow controls
The first diversion chamber 801G of device 1G flows to first open communication 9101G of water process element 91G, and the open communications of Jing first
9101G flows into the water process element 91G and the water Jing after the water process body 911G process of water process element 91G is processed,
Water Jing liquid collectings element 912G flows to second open communication 9102G of water process element 91G wherein after the process, and then Jing should
Second open communication 9102G flows to the second diversion chamber 802G of flow-controlled device 1G, and the second diversion chamber of Jing 802G inflows should with after
The second channel 102G of flow-controlled device 1G, then the threeway of the 9th passage 109G guiding inflow flow-controlled device 1G of Jing flow-controlled device 1G
Road 103G, and the 3rd opening 303G of Jing shell 30G flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1G is in the second working position, the 7th opening 307G of the shell 30G that accessing pending water passes through flow-controlled device 1G flows into the shell
The first lead-through opening 1071G of the first accommodating chamber 310G of 30G and the 7th passage 107G for passing through flow-controlled device 1G flow into this
Seven passage 107G, subsequent accessing pending water separately flows into the second channel 102G and third channel 103G of flow-controlled device 1G, and flowing into should
The water of the third channel 103G of flow-controlled device 1G flows through the 3rd opening 303G of shell 30G and flows out so that user is used, wherein
The accessing pending water of inflow second channel 102G is suitable to the second diversion chamber 802G of Jing flow-controlled device 1G and flows to the water process element
91G, and second open communication 9102G of Jing water process element 91G flows into liquid collecting element 912G, then from the liquid collecting element
912G flows into water process element 91G, and the water process body 911G of back flush water process element 91G, produces after flushing
First open communication 9101G of waste liquid Jing water process element 91G flow out, subsequently first diversion chamber of Jing flow-controlled devices 1G
801G flows into the first passage 101G of flow-controlled device 1G, and the tenth passage 1010G of Jing flow-controlled device 1G flows out;When the water process
When the flow-controlled device 1G of system is in three working positions, the 7th opening 307G of the shell 30G that accessing pending water passes through flow-controlled device 1G
Flow into the first accommodating chamber 310G of shell 30G, and first lead-through opening of the 7th passage 107G by flow-controlled device 1G
1071G flows into the 7th passage 107G, and subsequent accessing pending water flows into the first passage 101G of flow-controlled device 1G, and a portion is treated
Process the third channel 103G of the 9th passage 109G pilot flow direction flow-controlled device 1G of water Jing flow-controlled device 1G, and the Jing shells
The 3rd opening 303G of 30G is flowed out so that user is used, wherein flowing into another portion of the first passage 101G of flow-controlled device 1G
The first diversion chamber 801G of point accessing pending water Jing flow-controlled device 1G flows into first open communication 9101G of water process element 91G,
With the positive water process body 911G for rinsing water process element 91G, the waste liquid Jing liquid collecting elements 912G streams produced after flushing
To second open communication 9102G of water process element 91G, and Jing second open communications 9102G flow into flow-controlled device 1G's
Second diversion chamber 802G, then Jing second diversion chamber 802G flows into the second channel 102G of flow-controlled device 1G, and the Jing flow controls
The tenth passage 1010G of device 1G flows out.
It is understood that when further there is the shell 30G of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening 302G that the first opening 301G and that road 101G is connected is connected with the second channel 102G of the flow-controlled device
When, first open communication 9101G of the water process element 91G of the unit for treating water 90G of the water treatment system be suitable to this first
Opening 301G is connected, and second open communication of the water process element 91G of the unit for treating water 90G of the water treatment system
9102G is suitable to be connected with second opening 302G.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
The 3rd opening 303G of the shell 30G of stream device flows out, so that user is used;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 91G of the accessing pending water to the water treatment system
Carry out back flush, and the waste water that obtains of back flush is suitable to the tenth passage 1010G of the flow-controlled device from the water treatment system
Flow out, while the 3rd opening 303G of the shell 30G of the accessing pending water Jing flow-controlled device flows out;When user adjusts flow control of the present invention
When device is in three working positions, water treatment system of the present invention is suitable to adjust water process of the accessing pending water to the water treatment system
Element 91G carries out positive flushing, and it is positive rinse the waste water for obtaining and be suitable to the tenth of the flow-controlled device from the water treatment system lead to
Road 1010G flows out, while the 3rd opening 303G of the shell 30G of the accessing pending water Jing flow-controlled device flows out.That is, work as using
When person's regulation flow-controlled device of the present invention is in the second working position or three working positions, water treatment system of the present invention is suitable to adjust to be waited to locate
Reason water flows out from the 3rd opening 303G of the shell 30G of the flow-controlled device.Therefore, at the water treatment system of flow-controlled device of the present invention
In the first working position, the water treatment system can be processed accessing pending water and be provided water after process for user, second
Working position or the 3rd working position, the water treatment system can be while reverse or positive flushing is carried out to the water process element
User provides accessing pending water, and the lasting water supply function persistently uses water needs suitable for meeting user, especially at some not
The use needs of the occasion that can cut off the water.Especially, the 7th passage 107G of flow-controlled device of the present invention according to first passage 101G shape
Shape and size and design, and the flow cross-sectional area of first passage 101G more than the flow-controlled device second channel 102G, the 3rd
Passage 103G and the tenth passage 1010G, to increase in the unit interval by the discharge of first passage 101G.It is highly preferred that
When the flow-controlled device is in the first working position, the 7th passage 107G of the flow-controlled device is cooperatively connected with first passage 101G
It is logical, to increase in the unit interval by the discharge of first passage 101G.
Therefore, when the flow-controlled device is in the second working position and three working positions, the flow-controlled device is sustainably to user
Undressed accessing pending water is provided, the lasting water supply function is applied to and meets user and persistently supply water needs, especially at certain
The use needs of the occasion that can not cut off the water a bit.
With reference to shown in Figure 98 A to Figure 101 of accompanying drawing of the present invention, it is able to according to the flow-controlled device of the 19th preferred embodiment of the invention
Illustrate, it is applied to the multidirectional flowing of control current, the wherein flow-controlled device can turn including a first flow control element 10H and one
Dynamicly located at the second flow control element 20H of first flow control element 10H, wherein the first flow control element 10H includes one first
Flow control body 11H, the first flow control body 11H include top ends 111H, and wherein top ends 111H form one first
Flow control face 100H;Second flow control element 20H includes that a second flow control body 21H, the second flow control body 21H have one
, from the upwardly extending high end 212H of bottom 211H, bottom 211H forms one second control for bottom 211H and one
Stream interface 200H;The wherein first flow control face 100H of first flow control element 10H be suitable to second flow control element 20H this second
Flow control face 200H contacts.
As shown in Figure 98 B to Figure 98 D of accompanying drawing, further, as shown in Figure 99 A to Figure 99 D of accompanying drawing, the flow-controlled device
Top ends 111H of the first flow control element 10H include a first central part 1111H, first edge portion 1112H and one
The first pars intermedia 1113H between the first central part 1111H and first edge portion 1112H is extended in, the second flow control unit
The bottom 211H of part 20H include the second central part 2111H, a second edge portion 2112H and one extend in this
The second pars intermedia 2113H between two central part 2111H and second edge portion 2112H, the wherein flow-controlled device have one first
Passage 101H, second channel 102H, third channel 103H, the 7th passage 107H, a 9th passage 109H
With a tenth passage 1010H, wherein first passage 101H, second channel 102H and third channel 103H be respectively arranged on this
The first flow control body 11H of one flow control element 10H;7th passage 107H, the 9th passage 109H and the tenth passage 1010H distinguish
Located at second flow control body 21H, wherein first passage 101H, second channel 102H and third channel 103H respectively from this
The first flow control face 100H of the first flow control body 11H of one flow control element 10H is extended downwardly;Wherein the 7th passage 107H certainly should
The second flow control face 200H of the bottom 211H of the second flow control body 21H is upwardly extended and from the bottom of second flow control body 21H
The second pars intermedia 2113H of end 211H stretches out and forms first lead-through opening being connected with space outerpace all the time
1071H;9th passage 109H is extended upwardly to from the second flow control face 200H of the bottom 211H of second flow control body 21H
The high end 212H of the second flow control body 21H of second flow control element 20H;Tenth passage 1010H is from the second flow control sheet
The second flow control face 200H of the bottom 211H of body 21H is upwardly extended and through the second flow control sheet of second flow control element 20H
Body 21H.In other words, the first lead-through opening 1071H of the 7th passage 107H can keep the 7th passage 107H all the time with outward
Portion space, is especially connected with the space outerpace of flow-controlled device, and the tenth passage 1010H is from the bottom of second flow control body 21H
The second flow control face 200H of end 211H is upwardly extended and is connected with the upper outer space of second flow control element 20H.It is excellent
Selection of land, first passage 101H, the second channel 102H of the flow-controlled device and third channel 103H are respectively from first flow control body 11H
The first pars intermedia 1113H of top ends 111H extend out to first edge portions 1112H of top ends 111H;The flow control
7th passage 107H of device is from the middle of the second of the bottom 211H of the second flow control body 21H of second flow control element 20H
Portion 2113H stretches out;9th passage 109H of the flow-controlled device is from the second flow control body 21H's of second flow control element 20H
The second pars intermedia 2113H of bottom 211H extends out to the second edge portion 2112H of bottom 211H;The flow-controlled device
Second pars intermedias of the tenth passage 1010H from the bottom 211H of the second flow control body 21H of second flow control element 20H
2113H extends out to the second edge portion 2112H of bottom 211H.
As shown in Figure 100 A to Figure 100 E of accompanying drawing, the second flow control element 20H can turn with respect to the first flow control element 10H
Move so that the flow-controlled device has first working position, the second working position, the 3rd working position, the 4th work
Make position and the 5th working position, wherein when flow-controlled device is in the first working position, the 7th passage 107H of flow-controlled device and first
Passage 101H is connected, and the 9th passage 109H of flow-controlled device is connected respectively with second channel 102H and third channel 103H;When
When flow-controlled device is in the second working position, the 7th passage 107H of flow-controlled device is connected with second channel 102H, the tenth passage
1010H is connected with first passage 101H;When flow-controlled device is in three working positions, the 7th passage 107H of flow-controlled device and first
Passage 101H is connected, and the tenth passage 1010H of the flow-controlled device is connected with second channel 102H;When flow-controlled device is in the 4th work
When making position, the 7th passage 107H of flow-controlled device is connected with third channel 103H.
Preferably, when flow-controlled device is in the second working position, the 9th passage 109H and the third channel 103H phases of flow-controlled device
Connection;When flow-controlled device is in three working positions, the 9th passage 109H of flow-controlled device is connected with first passage 101H;Work as flow control
When device is in four working positions, the 9th passage 109H of flow-controlled device is connected with first passage 101H, the tenth passage of flow-controlled device
1010 are connected with first passage 101H;When flow-controlled device is in five working positions, the 9th passage 109H of flow-controlled device and first
Passage 101H is connected, and the tenth passage 1010 of flow-controlled device is connected with first passage 101H.
It is highly preferred that when flow-controlled device is in the first working position, the tenth passage 1010H of the flow-controlled device is by the first flow control unit
The first flow control body 11H obstructions of part 10H, the second flow control body 21H of second flow control element 20H respectively second leads to this
The upper outer spaced apart of road 102H and third channel 103H and the flow-controlled device;When flow-controlled device is in the second working position
When, the second flow control body 21H of second flow control element 20H is empty by the upper outer of third channel 103H and the flow-controlled device
Between be spaced;When flow-controlled device is in three working positions, the third channel 103H of flow-controlled device is by the second of the second flow control element 20H
Flow control body 21H blocks;When flow-controlled device is in four working positions, the second channel 102H of flow-controlled device is by the second flow control element
The second flow control body 21H obstructions of 20H;When flow-controlled device is in five working positions, the 7th passage 107H of flow-controlled device is by first
The first flow control body 11H obstructions of flow control element 10H, the second channel 102H and third channel 103H of flow-controlled device is by the second flow control
The second flow control body 21H obstructions of element 20H.
It should be noted that the first passage 101H of the flow-controlled device, second channel 102H and third channel 103H are mutual respectively
Separatedly located at the first flow control body 11H of the first flow control element;7th passage 107H, the 9th passage 109H and the tenth
Passage 1010H be spaced from each other respectively located at second flow control element 20H the second flow control body 21H.
As shown in Figure 99 A to 99D of accompanying drawing, the first flow control face 100H of the first flow control element 10H of the flow-controlled device and
The second flow control face 200H of two flow control element 20H is circle, first passage 101H, the second channel 102H of the flow-controlled device and
Triple channel 103H is deasil arranged in the first flow control body 11H of first flow control element 10H with this order;The flow-controlled device
7th passage 107H, the 9th passage 109H and the tenth passage 1010H are deasil arranged in the second flow control element with this order
The second flow control body 21H of 20H.Alternatively, the flow-controlled device sets first passage 101H, second channel 102H and third channel
103H can also this order be widdershins arranged in the first flow control body 11H of first flow control element 10H;While the flow-controlled device
The 7th passage 107H, the 9th passage 109H and the tenth passage 1010H second flow control unit is widdershins arranged in this order
The second flow control body 21H of part 20H.Preferably, first passage 101H, second channel 102H and third channel 103H are along footpath
To the first flow control face 100H located at first flow control element 10H, and the 7th passage 107H, the 9th passage 109H and the tenth are logical
Road 1010H is radially located at the second flow control face 200H of second flow control element 20H.It is highly preferred that first passage 101H
Extend downwardly from the first flow control face 100H of first flow control element 10H;Second channel 102H is from first flow control element 10H
The first flow control face 100H extend downwardly;Third channel 103H from the first flow control face 100H of first flow control element 10H to
It is lower to extend and stretch out.Further, the shapes and sizes of the second flow control face 200H of second flow control element 20H according to this
The first flow control face 100H designs of one flow control element 10H, so that the second flow control face 200H of second flow control element 20H is fitted
In the first flow control face 100H located at first flow control element 10H, and in the relative first flow control elements of the second flow control element 20H
When 10H is rotated, first passage 101H, the second channel of the first flow control body 11H located at first flow control element 10H is adjusted
102H and third channel 103H respectively with located at second flow control element 20H the second flow control body 21H the 7th passage 107H,
The connection of the 9th passage 109H and the tenth passage 1010H, is flowed with controlling current in the different passages of flow-controlled device of the present invention.
As shown in accompanying drawing 99A to Figure 99 D, the first flow control face 100H of the first flow control element 10H of the flow-controlled device has one
Core 1000H shown in individual figure chain lines, wherein core 1000H located at first flow control element 10H the
First central part 1111H of top ends 111H of one flow control body 11H;Second control of the second flow control element 20H of the flow-controlled device
Stream interface 200H has the central area 2000H shown in a figure chain lines, and wherein central area 2000H is located at second control
First control of the second central part 2111H of the bottom 211H of the second flow control body 21H of fluid element 20H, the wherein flow-controlled device
The core 1000H of the first flow control face 100H of fluid element 10H has first nodal point 1110H, and second flow control
The central area 2000H of the second flow control face 200H of element 20H has a second central point 2110H, wherein first flow control
Part outside the core 1000H of face 100H can be by six the first bluelines through first nodal point 1110H
10002H be divided into clockwise a Part I 1001H, Part II 1002H, Part III 1003H, one
Four part 1004H, a Part V 1005H and a Part VI 1006H;The central area of second flow control face 200H
Part outside 2000H is divided into clockwise one by six article of second blueline 20002H through second central point 2110H
One region 2001H, second area 2002H, the 3rd region 2003H, the 4th region 2004H, the 5th area
Domain 2005H and a 6th region 2006H;Wherein every adjacent two of the first flow control face 100H of first flow control element 10H
Central angle alpha 1H that first blueline 10002H is formed is equal in magnitude;The second flow control face 200H's of second flow control element 20H is every
Central angle alpha 2H of adjacent two the second blueline 20002H formation is equal in magnitude, and wherein first passage 101H is from the first flow control
Part I 1001H, the Part II 1002H of face 100H and Part III 1003H are extended downwardly;Second channel 102H certainly should
The Part IV 1004H of the first flow control face 100H of the first flow control element 10H is extended downwardly;Third channel 103H is from the first control
The Part V 1005H of stream interface 100H is extended downwardly;7th passage 107H is from the first area of second flow control face 200H
2001H is upwardly extended;Second area 2002Hs and threeth region 2003H of the 9th passage 109H from second flow control face 200H
Upwardly extend;Tenth passage 1010H is upwardly extended from the 4th region 2004H of second flow control face 200H.
As shown in Figure 98 B and Figure 101 of accompanying drawing, according to the flow-controlled device of the 19th preferred embodiment of the invention one is further included
Individual shell 30H, and the first flow control body 11H of first flow control element 10H of the flow-controlled device further includes one from the top
End portion 112H that end 111H is extended downwardly, wherein shell 30H include an outer cover body 31H, the wherein outer cover body
31H outwardly and upwardly extends and encloses and is set as one from end portion 112H of the first flow control body 11H of first flow control element 10H
First accommodating chamber 310H, so that outer cover body 31H is formed with a medial wall 311H, a lateral wall 312H and one
First lead-through opening of opening up upper end open 3101H, wherein the first accommodating chamber 310H and the 7th passage 107H
1071H is connected, and wherein second flow control element 20H is suitable to the second flow control face 200H and is located at first accommodating chamber 310H facing downward
And located at the first flow control face 100H of first flow control element 10H.Preferably, when flow-controlled device is in the first working position, this
The second flow control body 21H of two flow control element 20H is respectively by second channel 102H and third channel 103H and the flow control
The first accommodating chamber 310H of the shell 30H of device is spaced;When flow-controlled device is in the second working position, second flow control element 20H
The second flow control body 21H the first accommodating chamber 310H of the third channel 103H and shell 30H of the flow-controlled device is spaced.
It should be noted that shell 30H has 303H and one the 7th opening 307H of one the 3rd opening, wherein this
Three opening 303H are connected with third channel 103H, and the 7th opening 307H is connected with first accommodating chamber 310H.In other words,
Third channel 103H is extended downwardly and from the first flow control element from the first flow control face 100H of first flow control element 10H
End portion 112H of the first flow control body 11H of 10H stretches out to be connected with the 3rd opening 303H.Preferably, this
The medial wall of end portion 112H of the first flow control body 11H of one flow control element 10H and the outer cover body 31H of shell 30H
311H is integrally formed.It is highly preferred that the 3rd opening 303H and the 7th opening 307H are respectively arranged on the outer cover body of shell 30H
31H。
As shown in Figure 98 B of accompanying drawing, the flow-controlled device further includes that is detachably arranged at first flow control element 10H
With the anti-wear component 40H between the second flow control element 20H, wherein anti-wear component 40H have a wear-resisting body 41H, wherein
The wear-resisting body 41H has a wearing face for being suitable to be contacted with the second flow control face 200H of second flow control body 21H
410H, wherein wearing face 410H through Wear-resistant Treatment, such that it is able to reduce by the second flow control sheet of second flow control element 20H
Body 21H relative to the first flow control body 11H of first flow control element 10H rotate when produced frictional force, so as to extend the control
The service life of stream device.Further, the first flow control element 10H of the size and shape of anti-wear component 40H and the flow-controlled device
The first flow control face 100H it is corresponding and wear-resisting body 41H of anti-wear component 40H is formed with one first and connects with being spaced from each other
Mouthful 401H, second interface 402H and a 3rd interface 403H, wherein first interface 401H, second interface 402H and the
The shape of three interface 403H is with size respectively according to the first passage 101H of the flow-controlled device, second channel 102H and third channel 103H
And the design forming and first passage 101H with the flow-controlled device, second channel 102H and third channel 103H are connected.Preferably,
When anti-wear component 40H is between the first flow control element 10H and second flow control element 20H of the flow-controlled device, this is resistance to
There is no the rotation of the first flow control body 11H relative to first flow control element 10H in mill element 40H.It is highly preferred that the wear-resisting unit
Part 40H has a smoothed process to reduce the wearing face 410H of its degree of roughness.Most preferably, anti-wear component 40H
First interface 401H, second interface 402H and the 3rd interface 403H run through the anti-wear component up and down with being spaced from each other respectively
The wear-resisting body 41H of 40H, so that when the relative first flow control units of the second flow control body 21H of second flow control element 20H
When the first flow control body 11H of part 10H is rotated, the first interface 401H of anti-wear component 40H, second interface 402H and the 3rd
Interface 403H respectively selectively by located at the first passage 101H of the first flow control body 11H of first flow control element 10H, the
7th passage of two passage 102H and third channel 103H and the second flow control body 21H located at second flow control element 20H
107H, the 9th passage 109H and the tenth passage 1010H are connected.
As shown in Figure 98 B of accompanying drawing, the flow-controlled device further includes a diversion member 50H, wherein diversion member 50H
Including a water conservancy diversion body 51H, wherein water conservancy diversion body 51H encloses and is set as a first flow-guiding channel 510H, wherein the water conservancy diversion unit
The water conservancy diversion body 51H of part 50H is upwardly extended and the diversion member from the second flow control body 21H of second flow control element 20H
The first flow-guiding channel 510H of 50H is connected with the tenth passage 1010H of the flow-controlled device.
As shown in Figure 98 B of accompanying drawing, the flow-controlled device further includes second flow control from second flow control element 20H
Upwardly extending driving elements 60H of body 21H and one wherein should from the upwardly extending potted component 70H of driving element 60H
Driving element 60H is suitable to the second flow control body 21H of the second flow control element 20H for driving the flow-controlled device with respect to the first flow control unit
The first flow control body 11H of part 10H rotates;Wherein potted component 70H is suitable to the outer cover body located at shell 30H
The medial wall 311H of 31H to seal first accommodating chamber 310H, so as to prevent the water in first accommodating chamber 310H from this first
Upper end open 3101H of accommodating chamber 310H flows out.Preferably, potted component 70H contacts and is suitable to driving element 60H
Driving element 60H is held in place by, so as to the second flow control body 21H for keeping second flow control element 20H is in
Appropriate location.Preferably, driving element 60H of the flow-controlled device is integrally formed with the water conservancy diversion body 51H of diversion member 50H.
As shown in Figure 98 E to Figure 98 F of accompanying drawing, the outer cover body 31H of the shell 30H of the flow-controlled device is from the first flow control unit
End portion 112H of the first flow control body 11H of part 10H is extended downwardly and enclosed and is set as a second accommodating chamber 320H, wherein this
Two accommodating chamber 320H are located at the lower section of end portion 112H of the first flow control body 11H of first flow control element 10H.As accompanying drawing it
Shown in Figure 98 F, flow-controlled device of the present invention further includes a flow blocking element 80H located at second accommodating chamber 320H, wherein should
Flow blocking element 80H is extended downwardly from first flow control body 11H, the outer cover body of the wherein flow blocking element 80H and shell 30H
31H forms a first diversion chamber 801H being located between the flow blocking element 80H and the outer cover body 31H of shell 30H and is somebody's turn to do
Flow blocking element 80H encloses and is set as a second diversion chamber 802H, and the wherein first passage 101H of the flow-controlled device is from the first flow control unit
The first flow control face 100H of part 1001H is extended downwardly, and is connected with first diversion chamber 801H;The second channel of the flow-controlled device
102H is extended downwardly from the first flow control face 100H of first flow control element 10H and is connected with second diversion chamber 802H.It is excellent
Selection of land, the first passage 101H of the flow-controlled device is extended downwardly and run through from the first flow control face 100H of first flow control element 10H
End portion 112H of the first flow control body 11H of first flow control element 10H, to be connected with first diversion chamber 801H;Should
The second channel 102H of flow-controlled device is extended downwardly and through first control from the first flow control face 100H of first flow control element 10H
End portion 112H of the first flow control body 11H of fluid element 10H, to be connected with second diversion chamber 802H.
Figure 98 G of accompanying drawing are shown according to a kind of optional enforcement of the flow-controlled device of present pre-ferred embodiments, and wherein this is optional
The shell 30H for implementing flow-controlled device further has 301H and one second opening 302H of one first opening, the wherein flow-controlled device
First passage 101H extend downwardly from the first flow control face 100H of first flow control element 10H and from the first flow control element
End portion 112H of the first flow control body 11H of 10H stretches out to be connected with first opening 301H;The second channel
102H is extended downwardly from the first flow control face 100H of first flow control element 10H and controlled from the first of first flow control element 10H
End portion 112H of stream body 11H stretches out to be connected with second opening 302H;Third channel 103H from this first
The first flow control face 100H of flow control element 10H is extended downwardly and from the low of the first flow control body 11H of first flow control element 10H
End 112H stretches out to be connected with the 3rd opening 303H;The first accommodating chamber 310H is connected with the 7th opening 307H
It is logical.Preferably, the outer cover body of end portion 112H of the first flow control body 11H of first flow control element 10H and shell 30H
The medial wall 311H of 31H is integrally formed.It is highly preferred that this first opening 301H, second opening 302H and the 3rd opening 303H and
7th opening 307H is respectively arranged on the outer cover body 31H of shell 30H.
It should be noted that when the shell 30H of the flow-controlled device has the first opening 301H and second opening 302H, and
The first passage 101H of the flow-controlled device is connected with first opening 301H;Second channel 102H and the second opening 302H phases
During connection, the flow-controlled device will not need the flow blocking element 80H of the flow-controlled device of present pre-ferred embodiments.
Figure 99 E to Figure 99 G such as accompanying drawing show can according to the another kind of the flow-controlled device of the 19th preferred embodiment of the invention
Choosing is implemented, and wherein the flow-controlled device further includes a top located at the first flow control body 11H of first flow control element 10H
Fourth lane 104H of the first central part 1111H of portion 111H, wherein fourth lane 104H from first flow control face 100H to
Lower extension;Tenth passage 1010H of the flow-controlled device is from the bottom of the second flow control body 21H of second flow control element 20H
The second pars intermedia 2113H of 211H to the second central part 2111H of bottom 211H extends, and being somebody's turn to do from bottom 211H
Second central part 2111H and second pars intermedia 2113H extend upwardly to the high end 212H of second flow control body 21H.It is excellent
Selection of land, fourth lane 104H is extended downwardly from the core 1000H of first flow control face 100H;The tenth of the flow-controlled device
Passage 1010H is upwardly extended from the 4th region 2004H and central area 2000H of second flow control face 200H.It is highly preferred that
First passage 101H is extended downwardly and outwardly from the first flow control face 100H of first flow control element 10H;The second channel
102H is extended downwardly and outwardly from the first flow control face 100H of first flow control element 10H;Fourth lane 104H from this first
Flow control face 100H is extended downwardly and outwardly, second flow control bodies of wherein the tenth passage 1010H from second flow control element 20H
The second pars intermedia 2113H of the bottom 211H of 21H extends inwardly into the second central part 2111H of bottom 211H.
Significantly, since the flow-controlled device further includes first control located at first flow control element 10H
Flow fourth lane 104H of top ends 111H of body 11H and the tenth passage 1010H of the flow-controlled device is from bottom 211H's
Second pars intermedia 2113H extends into the second central part 2111H and from the second flow control face of second flow control element 20H
200H extends upwardly to the high end 212H of second flow control body 21H so that fourth lane 104H of the flow-controlled device with
Tenth passage 1010H is connected.Preferably, when flow-controlled device is in the first working position, second flow control element 20H this
Two flow control body 21H are respectively by second channel 102H, third channel 103H and fourth lane 104H and the flow-controlled device
Upper outer spaced apart;When flow-controlled device is in the second working position, the second flow control body of second flow control element 20H
21H is empty by the upper outer of first passage 101H, third channel 103H and fourth lane 104H and the flow-controlled device respectively
Between be spaced;When flow-controlled device is in three working positions, the third channel 103H of flow-controlled device is by the second of the second flow control element 20H
Flow control body 21H blocks, and the second flow control body 21H of second flow control element 20H is by second channel 102H and the 4th
The upper outer spaced apart of passage 104H and the flow-controlled device;When flow-controlled device is in four working positions, the second of flow-controlled device
Passage 102H is blocked by the second flow control body 21H of the second flow control element 20H, second flow control of second flow control element 20H
Body 21H is respectively by first passage 101H and the upper outer spaced apart of fourth lane 104H and the flow-controlled device;When
When flow-controlled device is in five working positions, the 7th passage 107H of flow-controlled device is by the first flow control body 11H of the first flow control element 10H
Obstruction, the second channel 102H and third channel 103H of flow-controlled device are hindered by the second flow control body 21H of the second flow control element 20H
Plug, the second flow control body 21H of second flow control element 20H respectively by first passage 101H and fourth lane 104H and
The upper outer spaced apart of the flow-controlled device.That is, when flow-controlled device is in the first working position, the second flow control element
The second flow control body 21H of 20H by second channel 102H, third channel 103H and fourth lane 104H and is somebody's turn to do respectively
The first accommodating chamber 310G of the shell 30G of flow-controlled device is spaced;When flow-controlled device is in the second working position, the second flow control element
The second flow control body 21H of 20H by first passage 101H, third channel 103H and fourth lane 104H and is somebody's turn to do respectively
The first accommodating chamber 310G of the shell 30G of flow-controlled device is spaced;When flow-controlled device is in three working positions, the threeway of flow-controlled device
Road 103H is blocked by the second flow control body 21H of the second flow control element 20H, the second flow control sheet of second flow control element 20H
Body 21H is separated by second channel 102H and fourth lane 104H with the first accommodating chamber 310G of the shell 30G of the flow-controlled device
Open;When flow-controlled device is in four working positions, the second channel 102H of flow-controlled device is by the second flow control sheet of the second flow control element 20H
Body 21H blocks, and the second flow control body 21H of second flow control element 20H is respectively by first passage 101H and the four-way
The first accommodating chamber 310G of the road 104H and shell 30G of the flow-controlled device is spaced;When flow-controlled device is in five working positions, flow control
7th passage 107H of device by the first flow control element 10H the first flow control body 11H block, the second channel 102H of flow-controlled device and
Third channel 103H by the second flow control element 20H the second flow control body 21H block, second flow control element 20H this second
Flow control body 21H respectively accommodates first passage 101H and fourth lane 104H with the first of the shell 30G of the flow-controlled device
Room 310G is spaced.
It is understood that when the flow-controlled device further includes first flow control located at first flow control element 10H
During fourth lane 104H of top ends 111H of body 11H, the anti-wear component 40H of the flow-controlled device further has one the 4th and connects
Mouth 404H, the wherein shape of the 4th interface 404H is corresponding with fourth lane 104H of the flow-controlled device respectively with size, and should
4th interface 404H is connected with fourth lane 104H.
Figure 101 of refer to the attached drawing, the present invention further provides a water treatment system, the wherein water treatment system include to
A few flow-controlled device 1H and at least one water treatment facilities, such as unit for treating water 90H, wherein unit for treating water 90H is applied to
Accessing pending water is processed, wherein unit for treating water 90H is connected with flow-controlled device 1H.
As shown in Figure 101 of accompanying drawing, according to the unit for treating water 90H of the 19th preferred embodiment of the invention a water is included
Treatment element 91H, wherein water process element 91H have first open communication 9101H and second open communication
9102H, wherein the accessing pending water from flow-controlled device is suitable to first connection of the water process element 91H from unit for treating water 90H
Opening 9101H flow into the water process element 91H and Jing the water process element 91H process after processed after water, the wherein process
Afterwards water is suitable to from second open communication 9102H of water process element 91H flow out.Alternatively, from the accessing pending water of flow-controlled device
Also water process element 91H can be flowed into from second open communication 9102H of the water process element 91H of unit for treating water 90H, and
Water after being processed Jing after water process element 91H process, and the first open communication 9101H stream from water process element 91H
Go out.
It should be noted that first diversion chamber 801H is suitable to connect with the first of the water process element 91H of the water treatment system
Open up a mouthful 9101H to be connected, and second diversion chamber 802H is suitable to the second open communication 9102H with water process element 91H
It is connected.
As shown in Figure 101 of accompanying drawing, according to the water process unit of the unit for treating water 90H of the 19th preferred embodiment of the invention
Part 91H includes an a water process body 911H and liquid collecting element 912H, first connection of wherein water process element 91H
Opening 9101H and the second open communication 9102H are separated by respectively turns up the soil located at water process body 911H, wherein the liquid collecting element
912H extends in the water process body 911H and to the second open communication 9102H direction, and with second open communication
9102H is connected, and wherein accessing pending water is suitable to flow into the water by first open communication 9101H of water process element 91H
Treatment element 91H, and the water after being processed after the water process body 911H of water process element 91H process, wherein should
Water is suitable to flow to the liquid collecting element 912H and flows out from liquid collecting element 912H after process.In other words, accessing pending water is suitable to certainly
First open communication 9101H of water process element 91H flows into the water of water process element 91H and Jing water process element 91H
Body 911H process is processed, with water after being processed, the current direction liquid collecting element 912H and Jing liquid collecting unit wherein after the process
After part 912H is concentrated, Jing second open communications 9102H flow out.Preferably, liquid collecting element 912H has a tubular structure.
It is highly preferred that make in materials of the water process element 91H of unit for treating water 90H including a water process body 911H containing
There are at least one material for water treatment, such as resin, activated carbon or other similar material for water treatment or its combination.
As shown in Figure 101 of accompanying drawing is the operating diagram using the water treatment facilities of flow-controlled device of the present invention, wherein when
When the flow-controlled device 1H of the water treatment system is in the first working position, the 7th of the shell 30H that accessing pending water passes through flow-controlled device 1H the
First conducting of the 7th passage 107H that opening 307H flows into the first accommodating chamber 310H of shell 30H and passes through flow-controlled device 1H
Opening 1071H flows into the 7th passage 107H, and subsequent accessing pending water flows into the first passage 101H of flow-controlled device 1H, and the Jing controls
The first diversion chamber 801H of stream device 1H flows to first open communication 9101H of water process element 91H, and the open communications of Jing first
9101H flows into the water process element 91H and the water Jing after the water process body 911H process of water process element 91H is processed,
Water Jing liquid collectings element 912H flows to second open communication 9102H of water process element 91H wherein after the process, and then Jing should
Second open communication 9102H flows to the second diversion chamber 802H of flow-controlled device 1H, and the second diversion chamber of Jing 802H inflows should with after
The second channel 102H of flow-controlled device 1H, then the threeway of the 9th passage 109H guiding inflow flow-controlled device 1H of Jing flow-controlled device 1H
Road 103H, and the 3rd opening 303H of Jing shell 30H flows out and uses for user;Wherein when the flow control of the water treatment system
When device 1H is in the second working position, the 7th opening 307H of the shell 30H that accessing pending water passes through flow-controlled device 1H flows into the shell
The first lead-through opening 1071H of the first accommodating chamber 310H of 30H and the 7th passage 107H for passing through flow-controlled device 1H flow into this
Seven passage 107H, subsequent accessing pending water flows into the second channel 102H of flow-controlled device 1H, second diversion chamber of Jing flow-controlled device 1H
802H flows to water process element 91H, and second open communication 9102H of Jing water process element 91H flows into the liquid collecting element
912H, then flows at water process element 91H, and the water of back flush water process element 91H from liquid collecting element 912H
First open communication 9101H of reason body 911H, the waste liquid Jing water process element 91H produced after flushing flows out, subsequently Jing
The first diversion chamber 801H of flow-controlled device 1H flows into the first passage 101H of flow-controlled device 1H, and the tenth of Jing flow-controlled device 1H is led to
Road 1010H flows out;When the flow-controlled device 1H of the water treatment system is in three working positions, accessing pending water is by flow-controlled device 1H's
The 7th opening 307H of shell 30H flows into the first accommodating chamber 310H of shell 30H, and by the 7th passage of flow-controlled device 1H
The first lead-through opening 1071H of 107H flows into the 7th passage 107H, and subsequent accessing pending water flows into the first of flow-controlled device 1H and leads to
The first diversion chamber 801H of road 101H, Jing flow-controlled device 1H flows into first open communication 9101H of water process element 91H, and
Forward direction rinses the water process body 911H of water process element 91H, the waste liquid Jing liquid collecting elements 912H flow directions produced after flushing
Second open communication 9102H of water process element 91H, and Jing second open communications 9102H flow into the of flow-controlled device 1H
Two diversion chamber 802H, then Jing second diversion chamber 802H flows into the second channel 102H of flow-controlled device 1H, and the Jing flow-controlled devices
The tenth passage 1010H of 1H flows out, and when the flow-controlled device 1H of the water treatment system is in four working positions, accessing pending water is by being somebody's turn to do
The 7th opening 307H of the shell 30H of flow-controlled device 1H flows into the first accommodating chamber 310H of shell 30H and by flow-controlled device 1H
The first lead-through opening 1071H of the 7th passage 107H flow into the 7th passage 107H, subsequent accessing pending water flows into the flow-controlled device
The 3rd opening 303H of the third channel 103H of 1H, Jing shell 30H is flowed out so that user is used, when the water treatment system
When flow-controlled device 1H is in five working positions, the 7th passage 107H of the flow-controlled device is by the first flow control sheet of the first flow control element 10H
Body 11H blocks, and the 9th passage 109H and the tenth passage 1010H of flow-controlled device 1H are connected with first passage 101H, the flow control
The second channel 102H and third channel 103H of device 1H is blocked by the second flow control body 21H of the second flow control element 20H, in other words
Say, the 3rd opening 303H non-water flows of shell 30H, water process element 91H and first accommodating chamber 310H is isolated.
It is understood that when further there is the shell 30H of flow-controlled device of the present invention one to lead to the first of the flow-controlled device
The second opening 302H that the first opening 301H and that road 101H is connected is connected with the second channel 102H of the flow-controlled device
When, first open communication 9101H of the water process element 91H of the unit for treating water 90H of the water treatment system be suitable to this first
Opening 301H is connected, and second open communication of the water process element 91H of the unit for treating water 90H of the water treatment system
9102H is suitable to be connected with second opening 302H.
It should be noted that when user adjusts flow-controlled device of the present invention and is in first working position, water process system of the present invention
Uniting after being suitable to that accessing pending water is processed and processed, water is suitable to the control by the water treatment system after water, and the process
The 3rd opening 303H of the shell 30H of stream device flows out, so that user is used;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 91H of the accessing pending water to the water treatment system
Carry out back flush, and the waste water that obtains of back flush is suitable to the tenth passage 1010H of the flow-controlled device from the water treatment system
Flow out;When user adjusts flow-controlled device of the present invention is in three working positions, water treatment system of the present invention is suitable to regulation, and this is treated
Processing water carries out positive flushing to the water process element 91H of the water treatment system, and the positive waste water for obtaining that rinses is suitable to certainly should
Tenth passage 1010H of the flow-controlled device of water treatment system flows out;The 4th work is in when user adjusts flow-controlled device of the present invention
When making position, water treatment system of the present invention is suitable to adjust threeth opening 303H stream of the accessing pending water from the shell 30H of the flow-controlled device
Go out, so that user is used, simultaneously because water process element 91H is isolated with the first accommodating chamber 310H of the flow-controlled device, so as to
In user in the state of not cutting off the water more change water to process element 91H;The 5th is in when user adjusts flow-controlled device of the present invention
During working position, the 7th passage 107H of the flow-controlled device is blocked by the first flow control body 11H of the first flow control element 10H, the flow control
The anhydrous outflows of 3rd opening 303H of the shell 30H of device, play a part of to close current.Therefore, when the water of flow-controlled device of the present invention
When processing system is in the first working position, the water treatment system can be processed accessing pending water and provided after process for user
Water, in the second working position, the water treatment system can use accessing pending water back flush water process element 91H, in the 3rd work
During position, the water treatment system can be using accessing pending water forward direction flushing water treatment element 91H, in four working positions, the water process
Advantageously more change water to process element 91H is enabled a user to while system sustainable supply accessing pending water, in the 5th work
During position, the water treatment system can close current, and the function of this closing current causes to save in flow control in actual use
The shutoff valve that device front end is installed.In addition it is noted that be used for accessing pending water inflow in flow-controlled device of the present invention first leads to
Road 101H flow path cross sectional product accounted for 1/2nd of the first flow control face 100H areas, which greatly improves flow through first lead to
The water velocity of road 101H, improves the efficiency of flow-controlled device.
It should be noted 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 the how many implication of order or 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 of help those skilled in the art, it refers to the various liquids of including but not limited to water
It is only used for illustrating the present invention with various gaseous materials, therefore water mentioned herein and/or current, and does not constitute to this
The restriction 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
Open fire processing system can be used for various fluids, the including but not limited to process of the 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 the second flow control element with respect to the first flow control element position 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 of the waste water that water and backwash are produced after accessing pending water, process now to water treatment system of the present invention.
Those skilled in the art would appreciate that shown in the accompanying drawing and embodiment of the present invention described above is only to this
Bright example rather than restriction.
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 the change being based on these embodiment basis.
Therefore, the present invention includes covering all modifications within appended claims claimed range and spirit.
Claims (29)
1. a kind of flow-controlled device, it is characterised in that include:
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 one from the upwardly extending high end in 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 contacted with the second flow control face of the second flow control element,
The top ends of wherein described first flow control element are prolonged including first central part, a first edge portion and one
Stretch the first pars intermedia between first central part and the first edge portion, the bottom of the second flow control element
Portion extends in second central part and the second edge portion including second central part, a second edge portion and one
Between the second pars intermedia, wherein the flow-controlled device have first passage, second channel, third channel, one
Individual fourth lane, the 7th passage and the 9th passage, wherein the first passage, the second channel, the described 3rd
Passage and the fourth lane are respectively arranged on the first flow control body of the first flow control element;7th passage and described
Nine passages are respectively arranged on the second flow control body, wherein the first passage, the second channel, the third channel and institute
State fourth lane to face down extension from the first flow control of the first flow control body of the first flow control element respectively;Wherein described
Seven passages face upwards extension and from the bottom of the second flow control body from the second flow control of the bottom of the second flow control body
Second pars intermedia of end stretches out and forms first for being connected with the space outerpace of the flow-controlled device all the time and turns on
Opening;9th passage is faced upwards from the second flow control of the bottom of the second flow control body and extends to second flow control
The described high end of the second flow control body of element,
Wherein described flow-controlled device has the first working position, second working position and the 3rd working position, wherein working as institute
State flow-controlled device in first working position when, the 7th passage is connected with the first passage, the 9th passage point
It is not connected with the second channel and the third channel;When the flow-controlled device is in second working position, described the
Seven passages are connected respectively with the second channel and the third channel, the 9th passage respectively with the first passage and
The fourth lane is connected;When the flow-controlled device is in three working position, the 7th passage is respectively with described the
One passage is connected with the third channel, and the 9th passage is connected respectively with the second channel and the fourth lane
It is logical.
2. flow-controlled device according to claim 1, it is characterised in that when the flow-controlled device is in first working position, institute
State fourth lane to be blocked by the second flow control body of the second flow control element, the second flow control of the second flow control element
Body is respectively by the upper outer spaced apart of the second channel and the third channel and the flow-controlled device;When the control
When stream device is in second working position, the second flow control body of the second flow control element is respectively by the first passage and institute
State the upper outer spaced apart of fourth lane and the flow-controlled device;When the flow-controlled device is in three working position,
Second flow control body of the second flow control element is respectively by the second channel and the fourth lane and the flow-controlled device
Upper outer spaced apart.
3. flow-controlled device according to claim 2, it is characterised in that the first passage, the second channel, the described 3rd
Passage and the fourth lane stretch out respectively from first pars intermedia of the top ends of the first flow control body
To the first edge portion of the top ends;The second flow control body of 7th passage from the second flow control element
Second pars intermedia of the bottom stretch out, the 9th passage is from described the second of the second flow control element
Second pars intermedia of the bottom of flow control body extends out to the second edge portion of the bottom.
4. flow-controlled device according to claim 3, it is characterised in that the first passage, the second channel, the described 3rd
Passage and the fourth lane be spaced from each other respectively located at the first flow control element the first flow control body;Described 7th leads to
Road and the 9th passage be spaced from each other located at the second flow control element the second flow control body.
5. flow-controlled device according to claim 4, 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 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.
6. flow-controlled device according to claim 5, 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
The 7th passage and the 9th passage for stating flow-controlled device is deasil arranged in the second of the second flow control element with this order
Flow control body.
7. flow-controlled device according to claim 1, it is characterised in that the first flow control face of the first flow control element has
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 bottom of the second flow control body of the second flow control element, wherein institute
The core for stating the first flow control face of the first flow control element of flow-controlled device has a first nodal point, and described
The central area in the second flow control face of the second flow control element has second central point, wherein the first flow control face
Part outside core by five the first bluelines through the first nodal point be divided into clockwise a Part I,
One Part II, Part III, a Part IV and a Part V;With the second flow control face it is described in
Part outside heart district domain by five the second bluelines through second central point be divided into clockwise a first area, one
Individual second area, the 3rd region, the 4th region and the 5th region, wherein the first of the first flow control element
The central angle alpha 1 that every adjacent two first bluelines in flow control face are formed is equal in magnitude;Second flow control of the second flow control element
The central angle alpha 2 that every adjacent two second bluelines in face are formed is equal in magnitude, wherein the first passage is from first flow control
The Part I and the Part II in face is extended downwardly;The second channel from the first flow control element described
The Part IV in one flow control face is extended downwardly;The third channel is extended downwardly from the Part V in the first flow control face;Institute
State fourth lane to extend downwardly from the Part III in the first flow control face;7th passage from the second flow control face described
One region and the second area are upwardly extended;Fourth region and fiveth of 9th passage from the second flow control face
Region upwardly extends.
8. flow-controlled device according to claim 6, it is characterised in that the first flow control face of the first flow control element has
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 bottom of the second flow control body of the second flow control element, wherein institute
The core for stating the first flow control face of the first flow control element of flow-controlled device has a first nodal point, and described
The central area in the second flow control face of the second flow control element has second central point, wherein the first flow control face
Part outside core by five the first bluelines through the first nodal point be divided into clockwise a Part I,
One Part II, Part III, a Part IV and a Part V;With the second flow control face it is described in
Part outside heart district domain by five the second bluelines through second central point be divided into clockwise a first area, one
Individual second area, the 3rd region, the 4th region and the 5th region, wherein the first of the first flow control element
The central angle alpha 1 that every adjacent two first bluelines in flow control face are formed is equal in magnitude;Second flow control of the second flow control element
The central angle alpha 2 that every adjacent two second bluelines in face are formed is equal in magnitude, wherein the first passage is from first flow control
The Part I and the Part II in face is extended downwardly;The second channel from the first flow control element described
The Part IV in one flow control face is extended downwardly;The third channel is extended downwardly from the Part V in the first flow control face;Institute
State fourth lane to extend downwardly from the Part III in the first flow control face;7th passage from the second flow control face described
One region and the second area are upwardly extended;Fourth region and fiveth of 9th passage from the second flow control face
Region upwardly extends.
9. flow-controlled device according to claim 1, it is characterised in that the flow-controlled device further includes a shell, and described
The first flow control body of the first flow control element further include the top ends from the first flow control body to
The end portion of lower extension, wherein the shell includes an outer cover body, wherein the outer cover body is from first flow control unit
The end portion of the first flow control body of part outwardly and upwardly extends and encloses and is set as first accommodating chamber, wherein described
First accommodating chamber is connected with first lead-through opening of the 7th passage, wherein the second flow control element is suitable to second
Flow control is contained in face-down first accommodating chamber, 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 described 4th
Opening and the described 7th opening are respectively arranged on the outer cover body of the shell, wherein the 3rd opening is suitable to and described the
Triple 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 first
Accommodating chamber is connected.
10. flow-controlled device according to claim 8, it is characterised in that the flow-controlled device further includes a shell, and institute
The the first flow control body for stating the first flow control element further includes the top ends from the first flow control body
The end portion for extending downwardly, wherein the shell includes an outer cover body, wherein the outer cover body is from first flow control
The end portion of the first flow control body of element outwardly and upwardly extends and encloses and is set as first accommodating chamber, wherein institute
State the first accommodating chamber to be connected with first lead-through opening of the 7th passage, wherein the second flow control element is suitable to
Two flow controls are contained in face-down first accommodating chamber, and 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.
11. flow-controlled devices according to claim 10, 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, second flow control
Second flow control body of element is respectively by the institute of the first passage and the fourth lane and the shell of the flow-controlled device
State the first accommodating chamber to be spaced;When the flow-controlled device is in three working position, the second control of the second flow control element
Stream body is respectively by first accommodating chamber of the second channel and the fourth lane and the shell of the flow-controlled device
It is spaced.
12. flow-controlled devices according to claim 11, it is characterised in that the outer cover body of the shell is from described first
The end portion of the first flow control body of flow control element is extended downwardly and enclosed and 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 includes one 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
One is formed with the outer cover body of the shell to lead positioned at first between the flow blocking element and the outer cover body of the shell
Flow chamber, the flow blocking element encloses and is set as second diversion chamber.
13. flow-controlled devices according to claim 12, it is characterised in that the first passage of the flow-controlled device is from described
First flow control of one flow control element faces down and extends and be connected with first diversion chamber;The second channel is from described first
First flow control of flow control element faces down and extends and be connected with second diversion chamber.
14. flow-controlled devices according to claim 13, it is characterised in that the flow-controlled device further includes 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 the wear-resisting body has one to be suitable to be contacted with the second flow control face of the second flow control body
Wearing face, wherein the size and shape of the anti-wear component and described the of the first flow control element of the flow-controlled device
One flow control face is corresponding, and the described wear-resisting body of the anti-wear component 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 run through up and down respectively the anti-wear component described wear-resisting body and respectively with the institute of the flow-controlled device
State first passage, the second channel, the third channel to be connected with the fourth lane.
15. flow-controlled devices according to claim 11, 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 passage of flow-controlled device face down extension and from described first from the first flow control of the first flow control element
The end portion of the 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 face down extend and the first flow control body from the first flow control element end portion
Stretch out with second opening in communication.
16. flow-controlled devices according to claim 14, it is characterised in that the flow-controlled device further includes 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
The the first flow control body for moving the relatively described first flow control element of the second flow control body of the second flow control element of the flow-controlled device is sent out
It is raw to rotate.
17. flow-controlled devices according to claim 16, it is characterised in that the flow-controlled device further includes one from the drive
The upwardly extending potted component of dynamic element, 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, so as to prevent described first accommodate indoor water from
The upper end open of first accommodating chamber flows out.
18. a kind of water treatment systems, it is characterised in that include:
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 the top ends form a first flow control face;The second flow control element includes one
Second flow control body, the second flow control body is upwardly extending high-end from the bottom with a bottom and one
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 second flow control face of two flow control elements contacts, wherein the top ends of the first flow control element include one first
In the middle of central part, a first edge portion and first extended between first central part and the first edge portion
Portion, the bottom of the second flow control element extends in including second central part, a second edge portion and one
The second pars intermedia between second central part and the second edge portion, wherein the flow-controlled device is logical with one first
Road, second channel, third channel, 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 faces down extension;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 stretches out and forms one first conducting and opens
Mouthful;9th passage is faced upwards from the second flow control of the bottom of the second flow control body and extends to the second flow control unit
The described high end of the second flow control body of part, wherein the shell includes an outer cover body, wherein the outer cover body is certainly
The end portion of the first flow control body of the first flow control element outwardly and upwardly extends and encloses and is set as one first
Accommodating chamber, wherein first accommodating chamber of the shell is connected all the time with first lead-through opening of the 7th passage
It is logical, wherein the second flow control element is suitable to the second flow control is contained in face-down first accommodating chamber, and located at described the
The first flow control face of one flow control element, wherein the shell has one the 3rd opening, one the 4th opening and the
Seven openings, wherein the 3rd opening, the 4th opening and the 7th opening are respectively arranged on the shell of the shell
Body, wherein the 3rd opening is suitable to be connected with the third channel, the 4th opening is suitable to and the fourth lane
It is connected, the 7th opening is suitable to be connected with first accommodating chamber, wherein the unit for treating water is included at a water
Reason element, wherein the water process element has first open communication and second open communication, wherein from flow control
The accessing pending water of device is suitable to the first open communication of the water process element from the unit for treating water and flows into the water process element
And described in water after water process element is processed after processing, wherein after the process water be suitable to from the water process element the
Two open communications flow out.
19. water treatment systems according to claim 18, it is characterised in that the flow-controlled device have first working position,
One the second working position and the 3rd 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 respectively with the second channel and the third channel;
When the flow-controlled device be in second working position when, the 7th passage respectively with the second channel and the third channel
It is connected, the 9th passage is connected respectively with the first passage and the fourth lane;When the flow-controlled device is in institute
When stating three working positions, the 7th passage is connected respectively with the first passage and the third channel, and the described 9th leads to
Road is connected respectively with the second channel and the fourth lane.
20. water treatment systems according to claim 19, it is characterised in that when the flow-controlled device is in first work
During position, the fourth lane is blocked by the first flow control body of the first flow control element, the second flow control element
Second flow control body is respectively by the second channel and the third channel and described the first of the shell of the flow-controlled device
Accommodating chamber is spaced;When the flow-controlled device is in second working position, the second flow control body of the second flow control element
The first passage and the fourth lane are spaced with first accommodating chamber of the shell of the flow-controlled device respectively;
When the flow-controlled device is in three working position, the second flow control body of the second flow control element is respectively by described second
Passage and the fourth lane are spaced with first accommodating chamber of the shell of the flow-controlled device.
21. water treatment systems according to claim 20, it is characterised in that the first passage, the second channel, institute
State third channel and the fourth lane respectively from first pars intermedia of the top ends of the first flow control body to
The first edge portion of the top ends is extended to outward;Second control of 7th passage from the second flow control element
Second pars intermedia of the bottom of stream body stretches out, institute of the 9th passage from the second flow control element
Second pars intermedia for stating the bottom of the second flow control body extends out to the second edge of the bottom
Portion.
22. water treatment systems according to claim 21, it is characterised in that the first passage, the second channel, institute
State third channel and the fourth lane be spaced from each other respectively located at the first flow control element the first flow control body;It is described
7th passage and the 9th passage be spaced from each other located at the second flow control element the second flow control body.
23. water treatment systems according to claim 22, it is characterised in that first control of the first flow control element
The second flow control face of stream interface and the second flow control element is circle, the first passage, the second channel, described
Third channel and the fourth lane are radially located at the first flow control face of the first flow control element, and the described 7th
Passage and the 9th passage are radially located at the second flow control face of the second flow control element.
24. water treatment systems according to claim 23, it is characterised in that the first passage, the fourth lane, institute
State second channel and the third channel and first flow control of the first flow control element is deasil arranged in this order
Body;7th passage and the 9th passage of the flow-controlled device is deasil arranged in the second flow control element with this order
The second flow control body.
25. water treatment systems according to claim 24, it is characterised in that the first flow control face of the first flow control element
With a core, wherein the core is located at the described of the first flow control body of the first flow control element
First central part of top ends;There is a central area, wherein institute with the second flow control face of the second flow control element
Second central part of the central area located at the bottom of the second flow control body of the second flow control element is stated,
The core in the first flow control face of the first flow control element of wherein described flow-controlled device has a first nodal point,
There is second central point with the central area in the second flow control face of the second flow control element, wherein first control
Part outside the core of stream interface is divided into clockwise one by five article of first blueline through the first nodal point
A part, Part II, Part III, a Part IV and a Part V;With the second flow control face
The central area outside part be divided into one clockwise by five article of second blueline through second central point
One region, second area, the 3rd region, the 4th region and the 5th region, wherein first flow control
The central angle alpha 1 that every adjacent two first bluelines in the first flow control face of element are formed is equal in magnitude;The second flow control element
The second flow control face every adjacent two the second bluelines formed central angle alpha 2 it is equal in magnitude, wherein the first passage is from institute
The Part I and the Part II for stating the first flow control face is extended downwardly;The second channel is from first flow control unit
The Part IV in the first flow control face of part is extended downwardly;The third channel from the Part V in the first flow control face to
Lower extension;The fourth lane is extended downwardly from the Part III in the first flow control face;7th passage is from second flow control
The first area in face and the second area are upwardly extended;9th passage is from the described 4th of the second flow control face
Region and the 5th region upwardly extend.
26. water treatment systems according to claim 25, it is characterised in that the outer cover body of the shell is from described
The end portion of the first flow control body of the first flow control element is extended downwardly and enclosed and is set as second accommodating chamber, wherein described second
Accommodating chamber is located at the lower section of the end portion of the first flow control body, wherein the flow-controlled device further includes one located at described
The flow blocking element of the second accommodating chamber, wherein the flow blocking element is extended downwardly from the first flow control body, wherein the flow blocking
The outer cover body of element and the shell forms the be located between the flow blocking element and the outer cover body of the shell
One diversion chamber, the flow blocking element encloses and is set as second diversion chamber, wherein first diversion chamber be suitable to respectively with the control
The first passage of stream device is connected with the first open communication of the water process element of the unit for treating water, second diversion chamber
It is suitable to be connected with the second open communication of the water process element of the second channel and the unit for treating water of the flow-controlled device respectively
It is logical.
27. water treatment systems according to claim 26, it is characterised in that the first passage of the flow-controlled device is from institute
The first flow control for stating the first flow control element faces down and extension and is connected with first diversion chamber, and the second channel is from institute
State the first flow control element the first flow control face down extension and be connected with second diversion chamber.
28. water treatment systems according to claim 27, it is characterised in that the water process element bag of the unit for treating water
A water process body and a liquid collecting element are included, wherein first open communication of the water process element is connected with second
Opening is separated by respectively turns up the soil located at the water process body, wherein the liquid collecting element is located at the water process sheet in vivo and to institute
The extension of the second open communication direction is stated, and is connected with second open communication, wherein accessing pending water is suitable to by the water
First open communication for the treatment of element flows into the water process element, and in the water process sheet through the water process element
Water after being processed after body process, wherein water is suitable to flow to the liquid collecting element and from the liquid collecting element stream after the process
Go out.
29. water treatment systems according to claim 28, it is characterised in that when the flow-controlled device of the water treatment system is in
During first working position, accessing pending water is suitable to flow into first accommodating chamber by the 7th opening of the shell, and passes through
First lead-through opening of the 7th passage of the flow-controlled device flows into the 7th passage, subsequently flows into the of the flow-controlled device
One passage, and the first diversion chamber of flow-controlled device described in Jing flows to the first open communication of the water process element, and Jing first connects
Open up mouth and flow into the water process element, wherein the accessing pending water is flowed into after the water process element, water process unit described in Jing
The water process body of part processed after water, wherein water is suitable to flow to described in the liquid collecting element and Jing and collects after the process
Liquid element flows to the second open communication of the water process element, and then the second open communication flows to the flow-controlled device described in Jing
Second diversion chamber, and the second diversion chamber described in Jing flows into the second channel of the flow-controlled device, then the of flow-controlled device described in Jing
The guiding of nine passages flows into the third channel of the flow-controlled device, and the 3rd opening of shell described in Jing flows out;Wherein at the water
When the flow-controlled device of reason system is in second working position, accessing pending water is suitable to described by the 7th opening inflow of the shell
First accommodating chamber of shell, and the first lead-through opening of the 7th passage for passing through the flow-controlled device flows into the 7th passage, with
Afterwards the accessing pending water is suitable to separately flow into the second channel of the flow-controlled device and third channel, wherein flowing into the flow control
The accessing pending water of the third channel of device is suitable to the 3rd opening of shell described in Jing and flows out, and flow into the flow-controlled device second is led to
The accessing pending water in road is suitable to the second diversion chamber of flow-controlled device described in Jing and flows to the water process element, and water process described in Jing
Second open communication of element flows to the liquid collecting element, then the water process element is flowed into from the liquid collecting element, with anti-
To the water process body for rinsing the water process element, the first connection of water process element described in the waste liquid Jing produced after flushing is opened
Mouthful flow out, then the first diversion chamber of flow-controlled device described in Jing flows into the first passage of the flow-controlled device, then flow-controlled device described in Jing
The guiding of 9th passage flows through the fourth lane of the flow-controlled device, and then the 4th opening of shell described in Jing flows out;At the water
When the flow-controlled device of reason system is in three working position, the accessing pending water is suitable to the 7th of the shell by the flow-controlled device
Opening flows into the first accommodating chamber of the shell, and the first lead-through opening inflow of the 7th passage for passing through the flow-controlled device is described
7th passage, subsequent accessing pending water separately flows into the first passage and third channel of the flow-controlled device, flows into the flow-controlled device
The water of third channel flows through the 3rd opening of the shell and flows out so that user is used, and flows into the first passage of the flow-controlled device
Accessing pending water Jing described in the first diversion chamber of flow-controlled device flow into the first open communication of the water process element, and positive rinse
The water process body of the water process element, liquid collecting element described in the waste liquid Jing produced after flushing flows to the water process element
Second open communication, and the second open communication described in Jing flows into the second diversion chamber of the flow-controlled device, then second leads described in Jing
Flow chamber flows into the second channel of the flow-controlled device, then the 4th of flow-controlled device described in the 9th passage pilot flow direction of flow-controlled device described in Jing
Passage, then the 4th opening outflow of shell described in Jing.
Priority Applications (7)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201710268072.8A CN107314128A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268079.XA CN107327595A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268077.0A CN107327593A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268068.1A CN107327592A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201380025084.8A CN104508339B (en) | 2012-05-15 | 2013-05-15 | Flow controller and water processing system |
CN201710268078.5A CN107327594B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268067.7A CN107654696B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210150920.2A CN102678967B (en) | 2012-05-15 | 2012-05-15 | Multifunctional control valve |
CN2012101500903 | 2012-05-15 | ||
CN201210150090.3A CN102678966B (en) | 2012-05-15 | 2012-05-15 | Multifunctional control valve |
CN2012101509202 | 2012-05-15 | ||
PCT/CN2013/000581 WO2013170633A1 (en) | 2012-05-15 | 2013-05-15 | Flow controller |
CN201380025084.8A CN104508339B (en) | 2012-05-15 | 2013-05-15 | Flow controller and water processing system |
Related Child Applications (6)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710268079.XA Division CN107327595A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268068.1A Division CN107327592A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268067.7A Division CN107654696B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268077.0A Division CN107327593A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268072.8A Division CN107314128A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268078.5A Division CN107327594B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
Publications (2)
Publication Number | Publication Date |
---|---|
CN104508339A CN104508339A (en) | 2015-04-08 |
CN104508339B true CN104508339B (en) | 2017-05-10 |
Family
ID=49583079
Family Applications (7)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710268079.XA Pending CN107327595A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201380025084.8A Active CN104508339B (en) | 2012-05-15 | 2013-05-15 | Flow controller and water processing system |
CN201710268067.7A Active CN107654696B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268078.5A Active CN107327594B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268072.8A Pending CN107314128A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268077.0A Pending CN107327593A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268068.1A Pending CN107327592A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710268079.XA Pending CN107327595A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
Family Applications After (5)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201710268067.7A Active CN107654696B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268078.5A Active CN107327594B (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268072.8A Pending CN107314128A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268077.0A Pending CN107327593A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
CN201710268068.1A Pending CN107327592A (en) | 2012-05-15 | 2013-05-15 | Flow-controlled device |
Country Status (3)
Country | Link |
---|---|
CN (7) | CN107327595A (en) |
TW (1) | TW201406444A (en) |
WO (1) | WO2013170633A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104676046B (en) * | 2013-11-28 | 2017-09-29 | 余姚市亚东塑业有限公司 | Flow-controlled device |
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- 2013-05-15 CN CN201710268079.XA patent/CN107327595A/en active Pending
- 2013-05-15 CN CN201380025084.8A patent/CN104508339B/en active Active
- 2013-05-15 CN CN201710268067.7A patent/CN107654696B/en active Active
- 2013-05-15 CN CN201710268078.5A patent/CN107327594B/en active Active
- 2013-05-15 CN CN201710268072.8A patent/CN107314128A/en active Pending
- 2013-05-15 TW TW102117137A patent/TW201406444A/en unknown
- 2013-05-15 CN CN201710268077.0A patent/CN107327593A/en active Pending
- 2013-05-15 WO PCT/CN2013/000581 patent/WO2013170633A1/en active Application Filing
- 2013-05-15 CN CN201710268068.1A patent/CN107327592A/en active Pending
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Also Published As
Publication number | Publication date |
---|---|
CN107327592A (en) | 2017-11-07 |
CN107327594B (en) | 2019-06-14 |
WO2013170633A1 (en) | 2013-11-21 |
CN104508339A (en) | 2015-04-08 |
TW201406444A (en) | 2014-02-16 |
CN107327594A (en) | 2017-11-07 |
CN107327593A (en) | 2017-11-07 |
CN107314128A (en) | 2017-11-03 |
CN107654696B (en) | 2019-07-12 |
CN107327595A (en) | 2017-11-07 |
CN107654696A (en) | 2018-02-02 |
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