CN209041646U - Fluid valve - Google Patents
Fluid valve Download PDFInfo
- Publication number
- CN209041646U CN209041646U CN201820826240.0U CN201820826240U CN209041646U CN 209041646 U CN209041646 U CN 209041646U CN 201820826240 U CN201820826240 U CN 201820826240U CN 209041646 U CN209041646 U CN 209041646U
- Authority
- CN
- China
- Prior art keywords
- channel
- valve
- fluid
- fluid valve
- working position
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Multiple-Way Valves (AREA)
Abstract
The utility model provides a kind of new fluid valve, is capable of forming multiple working positions and forms at least one communicating passage in each working position, realizes processing to fluid, such as pending water to control flow direction and the help of fluid.
Description
Technical field
The utility model relates to fluid processing technology fields, more particularly, to water-treatment technology field.The utility model
Fluid valve is suitable in treatment fluid, controls the flow direction of fluid, is particularly suitable in water process, controls the flow direction of water, with
It realizes to raw water (or pending water) purification-sofening treatment.
Technical background
In fluid processing, fluid valve plays an important role.For example, fluid valve can be controlled wait locate in water treatment system
The flow direction of water (or raw water) is managed, to realize the different disposal to pending water, such as super-filtration purifying, the purification of RO film or softening etc.
Reason, to meet the needs of people.Especially, in recent years, as people are to the pay attention to day by day of health and to water pollution problems
Worry, water treatment machine or water treatment system have become common domestic electric appliance.Water treatment machine, especially Domestic water treatment machine,
Such as central purifier, water softening device to be installed in kitchen, to be handled water and be obtained cleaner water.
According to the difference to raw water or the processing mode of pending water, water treatment machine generally can be divided into water purifier and soft water
Machine.Common water purifier, such as active carbon filter water purifier, ultrafiltration water purifier, RO membrane water purifier, are mostly to remove as far as possible
Impurity in water, such as harmful substance and peculiar smell foreign matter.And water softening device is primarily to remove the calcium ion plasma in water removal.Ultrafiltration
The water that the water purifiers such as water purifier and RO membrane water purifier handle raw water is relatively more clean and is suitble to drink, water softening device
The soft water handled raw water is more suitable for clothes etc. of taking a shower, do washing because containing less calcium ion etc..Also there is part population
Think, soft water is more suitable for beauty.However, existing water treatment machine or water treatment system with compound treatment function are mostly simple
The water treatment machine that purified treatment is carried out to water, such as the compound water purification system of active carbon-ultra-filtration filters, the compound water purification system of ultrafiltration-RO film
System, PP cotton-compound water purification system of active carbon etc., but almost seldom there is the compound water treatment system of water purification-softening.Less there is energy
The water treatment system or water treatment machine of purified water and softened water are provided simultaneously.It is mainly due to, purification to water and to water
When carrying out sofening treatment, the two has very big difference in mechanism or mechanism.When carrying out sofening treatment to water, water softening device needs
Periodically into Softening box, (or softening resin) supplements saline solution (generally NaCl solution) and cleans to Softening box, to avoid soft
The softening resin changed in case loses activity.In addition, water softening device is also needed to its salt other than supplementing saline solution into Softening box
Water is supplemented in (liquid) case, to prevent the saline solution in brine tank to be depleted and without providing saline solution in normal direction Softening box.However, all
Water treatment system can be related to the control of water flow.What the structure and function due to carrying out the water softening device of sofening treatment to water was realized
Complexity causes the compound water treatment system of purification-softening to need to form complicated water route, and can be realized and rationally control it.
In order to realize while to water purification access and the control for softening water route, the existing compound water treatment systems tool of overwhelming majority purification-softening
There are two above flat valves, this eventually leads to entire water treatment system bloatedness, bulky and bad usage experience.
In addition, water treatment machine, especially Domestic water treatment machine, be generally mounted at the table top in kitchen in the following, as hand washing sink lower section.It is existing
There is the bulkiness of the compound water treatment system of purification-softening, occupy excessive space, is also brought very very much not to the installation of user
Just.Needless to say maintenance and filter element replacing when water treatment system breaks down.
Utility model content
The main advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, wherein the fluid valve
It is particularly suitable for purification-softening, individually and/or simultaneously to realize purification and the sofening treatment to raw water or pending water,
To individually and/or simultaneously to user provide net (change) water and soft (change) water according to user's needs.
Another advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, wherein the fluid valve
It is particularly suitable for purification-softening, wherein the utility model fluid valve can make the water purification unit and water softening of the water treatment system
Mechanism is connected in series, and the water purification unit of the water treatment system is located at the upstream of water softening mechanism, so that the water be made to soften
Mechanism can be handled the water purification from the water purification unit, to obtain clean softened water.
Another advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, wherein the fluid valve
It is particularly suitable for purification-softening, wherein the utility model fluid valve can make the water purification unit of the water treatment system, the water soft
Change and be connected between mechanism and the fluid valve by corresponding water route, to realize the control to Water warfare water route and water softening water route
System and purification and sofening treatment to water.Especially, the water purification handled through the water purification unit flows to water purification access respectively
With the water inlet of water softening mechanism, water purification is provided individually or simultaneously to soften mechanism to the water purification access and the water.
Another advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, wherein the fluid valve
It is particularly suitable for purification-softening, wherein the utility model fluid valve is not only able to control and carries out purified treatment to water, moreover it is possible to control
It realizes other functions, such as controls water flow and Softening box is rinsed, saline solution is supplemented into Softening box, supplements water into salt (water) case
Etc. functions.
Another advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, wherein the fluid valve
It is particularly suitable for purification-softening, wherein the utility model fluid valve can enable the fluid valve of the water treatment system control simultaneously
The water flow purified in water flow and the softening water route in water route is flowed to different directions without interfering with each other, to control the water treatment system
Purification mechanism and soft water mechanism individually and/or simultaneously realize purification and sofening treatment to raw water or pending water, from
And it is needed to provide water purification and softened water individually and/or simultaneously to user according to user.In other words, the water process system
The fluid valve of system enables the utility model water treatment system to pass through single fluid valve while realizing to purification water route and softening
The control in water route.
Another advantage of the utility model is that it provides a kind of fluid valve suitable for fluid processing, and wherein this is practical new
Type fluid valve does not need accurate component and complicated structure, and manufacturing process is simple, low in cost.
Other advantage and characteristics of the utility model are able to fully demonstrate and can be by appended by following detailed descriptions
The combination of the means and device specially pointed out in claim is achieved.
According to the utility model, the utility model water treatment system packet of foregoing purpose and other purposes and advantage can be realized
It includes:
One valve body;With
One spool, wherein one inner cavity of valve body formation, first opening, the second opening, a third are opened
Mouth, the 4th opening, the 5th opening, the 6th opening, the 7th opening and one the 8th are open, wherein the valve
Core is arranged on the inner cavity.
According to the first preferred embodiment of the utility model, further, the utility model fluid valve has one first work
Position, second working position and a third working position, wherein when the fluid valve is in first working position, the fluid valve
The spool formed one respectively with the valve body this first opening and the 5th opening in communication the first communicating passage, one point
Not with the valve body this second opening and the 7th opening in communication the second communicating passage and one respectively with the valve body should
The third connecting channel of 6th opening and the 8th opening in communication;When the fluid valve is in second working position, the fluid
The spool of valve formed one respectively with the 4th communicating passage of first opening of the valve body and the 7th opening in communication and
One the 5th communicating passage with the 6th of valve body opening and the 9th opening in communication respectively;When the fluid valve is in
When the third working position, the spool of the fluid valve forms the phase that is open respectively with first opening of the valve body and the 6th
6th communicating passage of connection and one are connected to the 7th of the 5th of valve body opening and the 9th opening in communication the respectively
Channel.
According to the first preferred embodiment of the utility model, further, the utility model fluid valve has one the 4th work
Position and the 5th working position, when the fluid valve is in four working positions, the spool of the fluid valve forms a difference
With the valve body this first opening and the third opening in communication eight connectivity channel, one respectively with the valve body the 4th
9th communicating passage of opening and the 7th opening in communication and one respectively with the 6th of valve body opening and the fluid valve
The 9th opening in communication the tenth communicating passage;When the fluid valve is in five working positions, the valve of the fluid valve
Core formed one respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one point
Not with the 12nd communicating passage of the 7th of valve body opening and the 9th opening in communication.
According to the first preferred embodiment of the utility model, further, the utility model fluid valve has one the 6th work
Position and the 7th working position, wherein the spool of the fluid valve forms one when the fluid valve is in six working positions
Respectively with the valve body this first opening and the 5th opening in communication the tenth tee joint channel and one respectively with the valve body
The 6th opening and the 9th opening in communication the 14th communicating passage;When the fluid valve is in seven working positions,
The spool of the fluid valve forms one and connects respectively with the 15th of first opening of the valve body and the 4th opening in communication the
Circulation passage.
According to the first preferred embodiment of the utility model, further, the utility model fluid valve is flat valve, wherein the stream
The spool of body valve includes a moving valve plate and a fixed valve plate, and wherein the fixed valve plate has a first fluid control plane, should
Moving valve plate has a second fluid control plane, and wherein the moving valve plate and the fixed valve plate are arranged on the inner cavity, and wherein this is dynamic
The second fluid control plane of valve block is arranged on the first fluid control plane of the fixed valve plate, and be set can for the moving valve plate
It is rotated relative to the fixed valve plate, wherein the fluid valve has a first passage, a second channel, a third channel, one
Fourth lane, a Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, one
A tenth channel, the 11st channel, the 12nd channel and the tenth triple channel, wherein the first passage, this
Two channels, the third channel, the fourth lane, the Five-channel, the 6th channel, the 7th channel, the 8th channel and should
12nd channel is respectively arranged on the fixed valve plate and extends respectively from the first fluid control plane of the fixed valve plate;9th channel,
Tenth channel, the 11st channel and the tenth triple channel be respectively arranged on the moving valve plate and respectively from the moving valve plate this second
Fluid control plane extends, wherein the first passage and the second channel respectively with the 5th opening in communication, the third channel with
The fourth lane respectively with the 7th opening in communication, the Five-channel and second opening in communication, the 6th channel with should
Third opening in communication, the 7th channel and the 4th opening in communication, the 8th channel and the 6th opening in communication, this
12 channels and the 8th opening in communication, first opening in communication in the 9th channel and the valve body, the 11st channel
With the 9th opening in communication, wherein when the fluid valve is in first working position, the 9th channel of the fluid valve with should
First passage is connected, to form first communicating passage, the tenth channel respectively with the third channel and the Five-channel
It is connected, to form second communicating passage, the tenth triple channel is connected with the 8th channel and the 12nd channel respectively
It is logical, to form the third connecting channel;When the fluid valve is in second working position, the 9th channel of the fluid valve with
The fourth lane is connected, to form the 4th communicating passage, the 11st channel is connected with the 8th channel, thus shape
At the 5th communicating passage;When the fluid valve is in the third working position, the 8th channel of the fluid valve is logical with the 9th
Road is connected, to form the 6th communicating passage, the 11st channel is connected with the first passage, to form the 7th
Communicating passage.
According to the utility model preferred embodiment, the utility model further provides for a kind of valve block group for fluid valve
Part, wherein the fluid valve is flat valve comprising:
One moving valve plate;With
One fixed valve plate, wherein the fixed valve plate has a first fluid control plane, which has a second
Body control plane, wherein the second fluid control plane of the moving valve plate is suitable for being arranged on the first fluid control of the fixed valve plate
Face, and the moving valve plate is set and can rotate relative to the fixed valve plate, wherein the fluid valve has a first passage, one second
Channel, a third channel, a fourth lane, a Five-channel, the 6th channel, the 7th channel, one
Eight channels, the 9th channel, the tenth channel, the 11st channel, the 12nd channel and the tenth threeway
Road, wherein the first passage, the second channel, the third channel, the fourth lane, the Five-channel, the 6th channel, this
Seven channels, the 8th channel and the 12nd channel are respectively arranged on the fixed valve plate and respectively from the first fluid controls of the fixed valve plate
Face processed extends;9th channel, the tenth channel, the 11st channel and the tenth triple channel are respectively arranged on the moving valve plate and divide
Do not extend from the second fluid control plane of the moving valve plate.
By the understanding to subsequent description and attached drawing, the further purpose of the utility model and advantage will be able to abundant body
It is existing.
The these and other objects of the utility model, feature and advantage, by following detailed descriptions, attached drawing and right are wanted
It acquires to fully demonstrate.
Detailed description of the invention
Fig. 1 is the schematic elevation view according to the water treatment system of the first preferred embodiment of the utility model.
Fig. 2 is the assembling schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model.
Fig. 3 is the solid of the fluid valve (flat valve) of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure.
Fig. 4 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model.
Fig. 5 A is the solid of the valve body of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure.
Fig. 5 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Perspective view.
Fig. 6 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model, wherein
The figure shows the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, and also show the flat valve determines valve
8th channel of piece and the 6th opening in communication of the valve body.
Fig. 6 B is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the figure shows the first opening, the second opening, third opening, the 4th opening, the 5th opening, the 6th of the valve body of the flat valve
Opening, the 7th opening and the 8th opening.
Fig. 6 C is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Fig. 6 D be the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model the fixed valve plate and
The perspective view of valve body.
Fig. 7 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Fig. 8 A is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Fig. 8 B is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Fig. 8 C is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Fig. 8 D is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Fig. 8 E is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Fig. 9 A is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Fig. 9 B is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 10 A is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 10 B is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 11 A is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 11 B is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 11 C is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 11 D is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 12 A is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 12 B is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 12 C is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 13 A is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 13 B is another section view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 14 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
Wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 15 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Perspective view.
Figure 15 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Perspective view.
Figure 15 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Top view.
Figure 15 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Top view.
Figure 15 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Bottom view.
Figure 15 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Bottom view.
Figure 16 A is the structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 16 B is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 16 C is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 16 D is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 16 E is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 16 F is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 16 G is another structural schematic diagram of the above-mentioned water treatment system according to the first preferred embodiment of the utility model,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 17 A is the knot of the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram.
Figure 17 B is the knot of the moving valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 17 C be the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 17 D be the moving valve plate of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 18 A is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its first work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 B is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its second work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 C is that the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model works in its third
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 D is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its 4th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 E is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its 5th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 F is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its 6th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 18 G is the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model in its 7th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 19 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The perspective view applied.
Figure 20 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The cross-sectional view applied.
Figure 21 is that the another kind of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 22 is that the another kind of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model is optional
The perspective view of implementation.
The another kind that the flat valve of the water treatment system according to the first preferred embodiment of the utility model is shown in Figure 23 can
Choosing is implemented.
The optional reality of the flat valve of the water treatment system according to the first preferred embodiment of the utility model is shown in Figure 24
The cross-sectional view applied is wherein that the different piece in the 8th channel of the flat valve is connected with the 6th opening respectively shown in the figure
It is logical.
Figure 25 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Fixed valve plate structural schematic diagram.
Figure 25 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Fixed valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 26 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 C is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 D is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 E is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 F is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 26 G is the optional implementation of the flat valve of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 27 A is a kind of plane of optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The perspective view of the fixed valve plate of valve.
Figure 27 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The moving valve plate perspective view.
Figure 27 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The fixed valve plate top view.
Figure 27 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The moving valve plate top view.
Figure 27 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The fixed valve plate bottom view.
Figure 27 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
The moving valve plate bottom view.
Figure 28 A is that the structure of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model is shown
It is intended to, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 28 B is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 28 C is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water flow in the figure
Direction.
Figure 28 D is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water flow in the figure
Direction.
Figure 28 E is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 28 F is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water flow in the figure
Direction.
Figure 28 G is another knot of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 29 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Moving valve plate structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 29 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
Moving valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 30 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 30 G is the flat valve of the optional implementation of the above-mentioned water treatment system according to the first preferred embodiment of the utility model
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 31 is the schematic elevation view according to the water treatment system of the second preferred embodiment of the utility model.
Figure 32 is the assembling schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model.
Figure 33 is the perspective view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model.
Figure 34 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model.
Figure 35 A is the solid of the valve body of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure.
Figure 35 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Perspective view.
Figure 36 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In the figure show the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, also show determining for the flat valve
8th channel of valve block and the 6th opening in communication of the valve body.
Figure 36 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the figure show the valve body of the flat valve first opening, second opening, third opening, the 4th opening, the 5th opening,
6th opening, the 7th opening and the 8th opening.
Figure 36 C is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Figure 36 D be the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model the fixed valve plate and
The perspective view of valve body.
Figure 37 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
Wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Figure 38 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 38 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 38 C is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 38 D is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 38 E is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 39 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 39 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 40 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 40 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 41 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 41 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 41 C is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 41 D is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 42 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 42 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 42 C is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 43 A is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 43 B is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 43 C is another section view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 44 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
Wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 45 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Perspective view.
Figure 45 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Perspective view.
Figure 45 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Top view.
Figure 45 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Top view.
Figure 45 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Bottom view.
Figure 45 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Bottom view.
Figure 46 A is the structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 46 B is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 46 C is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 46 D is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 46 E is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 46 F is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 46 G is another structural schematic diagram of the above-mentioned water treatment system according to the second preferred embodiment of the utility model,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 47 A is the knot of the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram.
Figure 47 B is the knot of the moving valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 47 C be the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 47 D be the moving valve plate of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 48 A is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its first work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 B is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its second work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 C is that the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model works in its third
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 D is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its 4th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 E is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its 5th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 F is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its 6th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 48 G is the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model in its 7th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 49 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The perspective view applied.
Figure 50 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The cross-sectional view applied.
Figure 51 is that the another kind of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 52 is that the another kind of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model is optional
The perspective view of implementation.
The another kind that the flat valve of the water treatment system according to the second preferred embodiment of the utility model is shown in Figure 53 can
Choosing is implemented.
The optional reality of the flat valve of the water treatment system according to the second preferred embodiment of the utility model is shown in Figure 54
The cross-sectional view applied is wherein that the different piece in the 8th channel of the flat valve is connected with the 6th opening respectively shown in the figure
It is logical.
Figure 55 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Fixed valve plate structural schematic diagram.
Figure 55 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Fixed valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 56 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 C is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 D is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 E is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 F is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 56 G is the optional implementation of the flat valve of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 57 A is a kind of plane of optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The perspective view of the fixed valve plate of valve.
Figure 57 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The moving valve plate perspective view.
Figure 57 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The fixed valve plate top view.
Figure 57 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The moving valve plate top view.
Figure 57 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The fixed valve plate bottom view.
Figure 57 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
The moving valve plate bottom view.
Figure 58 A is that the structure of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model is shown
It is intended to, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 58 B is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 58 C is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water flow in the figure
Direction.
Figure 58 D is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water flow in the figure
Direction.
Figure 58 E is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 58 F is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water flow in the figure
Direction.
Figure 58 G is another knot of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Structure schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 59 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Moving valve plate structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 59 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
Moving valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 60 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 60 G is the flat valve of the optional implementation of the above-mentioned water treatment system according to the second preferred embodiment of the utility model
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 61 is the schematic elevation view according to the water treatment system of the utility model third preferred embodiment.
Figure 62 is the assembling schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment.
Figure 63 is the perspective view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment.
Figure 64 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment.
Figure 65 A is the solid of the valve body of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure.
Figure 65 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Perspective view.
Figure 66 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In the figure show the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, also show determining for the flat valve
8th channel of valve block and the 6th opening in communication of the valve body.
Figure 66 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the figure show the valve body of the flat valve first opening, second opening, third opening, the 4th opening, the 5th opening,
6th opening, the 7th opening and the 8th opening.
Figure 66 C is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Figure 66 D be the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment the fixed valve plate and
The perspective view of valve body.
Figure 67 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment,
Wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Figure 68 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 68 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 68 C is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 68 D is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 68 E is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 69 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 69 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 70 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 70 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 70 C is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 71 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 71 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 71 C is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 71 D is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 72 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 72 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 73 A is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 73 B is another section view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 74 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment,
Wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 75 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Perspective view.
Figure 75 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Perspective view.
Figure 75 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Top view.
Figure 75 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Top view.
Figure 75 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Bottom view.
Figure 75 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Bottom view.
Figure 76 A is the structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 76 B is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 76 C is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 76 D is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 76 E is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 76 F is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 76 G is another structural schematic diagram of the above-mentioned water treatment system according to the utility model third preferred embodiment,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 77 A is the knot of the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram.
Figure 77 B is the knot of the moving valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 77 C be the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 77 D be the moving valve plate of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment etc.
Divide schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 78 A is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its first work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 B is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its second work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 C is that the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment works in its third
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 D is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its 4th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 E is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its 5th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 F is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its 6th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 78 G is the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment in its 7th work
When position, the connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shadow part in the figure
Divide the interconnected channel of the moving valve plate and fixed valve plate that show the flat valve.
Figure 79 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
The perspective view applied.
Figure 80 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
The cross-sectional view applied.
Figure 81 is that the another kind of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment is optional
The perspective view of implementation.
Figure 82 is that the another kind of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment is optional
The perspective view of implementation.
The another kind that the flat valve of the water treatment system according to the utility model third preferred embodiment is shown in Figure 83 can
Choosing is implemented.
The optional reality of the flat valve of the water treatment system according to the utility model third preferred embodiment is shown in Figure 84
The cross-sectional view applied is wherein that the different piece in the 8th channel of the flat valve is connected with the 6th opening respectively shown in the figure
It is logical.
Figure 85 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Fixed valve plate structural schematic diagram.
Figure 85 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
Fixed valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 86 A is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 B is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 C is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 D is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 E is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 F is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 86 G is the optional implementation of the flat valve of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 87 A is a kind of plane of optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The perspective view of the fixed valve plate of valve.
Figure 87 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The moving valve plate perspective view.
Figure 87 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The fixed valve plate top view.
Figure 87 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The moving valve plate top view.
Figure 87 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The fixed valve plate bottom view.
Figure 87 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
The moving valve plate bottom view.
Figure 88 A is that the structure of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment is shown
It is intended to, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 88 B is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 88 C is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water flow in the figure
Direction.
Figure 88 D is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water flow in the figure
Direction.
Figure 88 E is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
It is oriented to water (flow) direction.
Figure 88 F is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water flow in the figure
Direction.
Figure 88 G is another knot of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Structure schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 89 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Moving valve plate structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 89 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
Moving valve plate equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 90 A is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 B is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 C is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 D is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 E is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 F is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 90 G is the flat valve of the optional implementation of the above-mentioned water treatment system according to the utility model third preferred embodiment
In its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate wherein should
Dash area in figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 91 is the schematic elevation view according to the water treatment system of the 4th preferred embodiment of the utility model.
Figure 92 is the assembling schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model.
Figure 93 is the perspective view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model.
Figure 94 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model.
Figure 95 A is the solid of the valve body of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure.
Figure 95 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Perspective view.
Figure 96 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In the figure show the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, also show determining for the flat valve
8th channel of valve block and the 6th opening in communication of the valve body.
Figure 96 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the figure show the valve body of the flat valve first opening, second opening, third opening, the 4th opening, the 5th opening,
6th opening, the 7th opening and the 8th opening.
Figure 96 C is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Figure 96 D be the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model the fixed valve plate and
The perspective view of valve body.
Figure 97 is another cross-sectional view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
Wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Figure 98 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 98 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 98 C is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 98 D is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 98 E is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 99 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 99 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 100 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 100 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 100 C is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 101 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 101 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 101 C is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 101 D is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 102 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 102 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 103 A is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 103 B is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 104 is another section view of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Figure, wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 105 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Perspective view.
Figure 105 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Perspective view.
Figure 105 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Top view.
Figure 105 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Top view.
Figure 105 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Bottom view.
Figure 105 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Bottom view.
Figure 106 A is the structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 106 B is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 106 C is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 106 D is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 106 E is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 106 F is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 106 G is another structural schematic diagram of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 107 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram.
Figure 107 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 107 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 107 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 108 A is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its first work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 B is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its second work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 C is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its third work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 D is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its 4th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 E is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its 5th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 F is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its 6th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 108 G is the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model in its 7th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 109 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The perspective view applied.
Figure 110 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The cross-sectional view applied.
Figure 111 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 112 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model is optional
The perspective view of implementation.
The another kind that the flat valve of the water treatment system according to the 4th preferred embodiment of the utility model is shown in Figure 113 can
Choosing is implemented.
The optional reality of the flat valve of the water treatment system according to the 4th preferred embodiment of the utility model is shown in Figure 114
The cross-sectional view applied is wherein that the different piece in the 8th channel of the flat valve is connected with the 6th opening respectively shown in the figure
It is logical.
Figure 115 A is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The structural schematic diagram for the fixed valve plate applied.
Figure 115 B is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The equal part schematic diagram for the fixed valve plate applied, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 116 A is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When the first working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 B is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When the second working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 C is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When Shi Qi third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 D is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When four working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 E is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When five working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 F is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When six working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 116 G is the optional reality of the flat valve of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
When seven working position of Shi Qi, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 117 A is a kind of the flat of optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The perspective view of the fixed valve plate of face valve.
Figure 117 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The perspective view of the moving valve plate of valve.
Figure 117 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The top view of the fixed valve plate of valve.
Figure 117 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The top view of the moving valve plate of valve.
Figure 117 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The bottom view of the fixed valve plate of valve.
Figure 117 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The bottom view of the moving valve plate of valve.
Figure 118 A is the structure of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Schematic diagram, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 118 B is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 118 C is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water in the figure
Flow direction.
Figure 118 D is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water in the figure
Flow direction.
Figure 118 E is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 118 F is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water in the figure
Flow direction.
Figure 118 G is the another of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 119 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The structural schematic diagram of the moving valve plate of valve, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 119 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
The equal part schematic diagram of the moving valve plate of valve, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 120 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 120 G is the plane of the optional implementation of the above-mentioned water treatment system according to the 4th preferred embodiment of the utility model
Valve is in its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 121 is the schematic elevation view according to the water treatment system of the 5th preferred embodiment of the utility model.
Figure 122 is the assembling schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model.
Figure 123 is the perspective view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model.
Figure 124 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model.
Figure 125 A is the vertical of the valve body of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Body figure.
Figure 125 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
One perspective view.
Figure 126 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In the figure show the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, also show determining for the flat valve
8th channel of valve block and the 6th opening in communication of the valve body.
Figure 126 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the figure show the valve body of the flat valve first opening, second opening, third opening, the 4th opening, the 5th opening,
6th opening, the 7th opening and the 8th opening.
Figure 126 C is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Figure 126 D is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
With the perspective view of valve body.
Figure 127 is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Figure 128 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 128 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 128 C is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 128 D is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 128 E is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 129 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 129 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 130 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 130 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 130 C is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 131 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 131 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 131 C is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 131 D is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 132 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 132 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 132 C is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 133 A is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 133 B is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 134 is another section view of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Figure, wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 135 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Perspective view.
Figure 135 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Perspective view.
Figure 135 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Top view.
Figure 135 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Top view.
Figure 135 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Bottom view.
Figure 135 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Bottom view.
Figure 136 A is the structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 136 B is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 136 C is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 136 D is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 136 E is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 136 F is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 136 G is another structural schematic diagram of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 137 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram.
Figure 137 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 137 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 137 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 138 A is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its first work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 B is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its second work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 C is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its third work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 D is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its 4th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 E is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its 5th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 F is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its 6th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 138 G is the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model in its 7th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 139 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The perspective view applied.
Figure 140 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The cross-sectional view applied.
Figure 141 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 142 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 143 A is a kind of the flat of optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The perspective view of the fixed valve plate of face valve.
Figure 143 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The perspective view of the moving valve plate of valve.
Figure 143 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The top view of the fixed valve plate of valve.
Figure 143 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The top view of the moving valve plate of valve.
Figure 143 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The bottom view of the fixed valve plate of valve.
Figure 143 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The bottom view of the moving valve plate of valve.
Figure 144 A is the structure of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Schematic diagram, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 144 B is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 144 C is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water in the figure
Flow direction.
Figure 144 D is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water in the figure
Flow direction.
Figure 144 E is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 144 F is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water in the figure
Flow direction.
Figure 144 G is the another of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 145 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The structural schematic diagram of the moving valve plate of valve, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 145 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
The equal part schematic diagram of the moving valve plate of valve, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 146 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 146 G is the plane of the optional implementation of the above-mentioned water treatment system according to the 5th preferred embodiment of the utility model
Valve is in its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 147 is the schematic elevation view according to the water treatment system of the 6th preferred embodiment of the utility model.
Figure 148 is the assembling schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model.
Figure 149 is the perspective view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model.
Figure 150 is the installation diagram of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model.
Figure 151 A is the vertical of the valve body of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Body figure.
Figure 151 B is the another of the valve body of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
One perspective view.
Figure 152 A is the cross-sectional view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In the figure show the first opening in communication of the inner cavity of the flat valve and the valve body of the flat valve, also show determining for the flat valve
8th channel of valve block and the 6th opening in communication of the valve body.
Figure 152 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the figure show the valve body of the flat valve first opening, second opening, third opening, the 4th opening, the 5th opening,
6th opening, the 7th opening and the 8th opening.
Figure 152 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the figure illustrates the 11st channels of the moving valve plate of the flat valve and the 9th opening in communication.
Figure 152 D is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
With the perspective view of valve body.
Figure 153 is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the figure illustrates the Five-channel of the fixed valve plate of the flat valve and the 12nd channels.
Figure 154 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 154 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 154 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 154 D is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 154 E is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in first working position.
Figure 155 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 155 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in second working position.
Figure 156 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in a third working position.
Figure 156 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 156 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the third working position.
Figure 157 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 157 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 157 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 157 D is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 4th working position.
Figure 158 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 158 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 158 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 5th working position.
Figure 159 A is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 159 B is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 159 C is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the flat valve of the utility model water treatment system shown in the figure is in the 6th working position.
Figure 160 is another section view of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Figure, wherein the utility model water treatment system shown in the figure is in the 7th working position.
Figure 161 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Perspective view.
Figure 161 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Perspective view.
Figure 161 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Top view.
Figure 161 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Top view.
Figure 161 E is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Bottom view.
Figure 161 F is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Bottom view.
Figure 162 A is the structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model, wherein should
Water treatment system shown in figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 162 B is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (or Softening box) backwash working position, arrow is oriented to water flow side in the figure
To.
Figure 162 C is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device backwash working position, arrow is oriented to water (flow) direction in the figure.
Figure 162 D is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core reproduction operation position, arrow is oriented to water (flow) direction in the figure.
Figure 162 E is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in softening filter core (softening plant) and just wash working position, arrow is oriented to water flow side in the figure
To.
Figure 162 F is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in purification device and just wash working position, arrow is oriented to water (flow) direction in the figure.
Figure 162 G is another structural schematic diagram of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model,
In water treatment system shown in the figure be in moisturizing working position, arrow is oriented to water (flow) direction in the figure.
Figure 163 A is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram.
Figure 163 B is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 163 C is the fixed valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the fixed valve plate.
Figure 163 D is the moving valve plate of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Equal part schematic diagram, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 164 A is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its first work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 B is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its second work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 C is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its third work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 D is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its 4th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 E is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its 5th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 F is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its 6th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 164 G is the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model in its 7th work
When making position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, the wherein shade in the figure
Part show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 165 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The perspective view applied.
Figure 166 is a kind of optional reality of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The cross-sectional view applied.
Figure 167 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 168 is that the another kind of the flat valve of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model is optional
The perspective view of implementation.
Figure 169 A is a kind of the flat of optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The perspective view of the fixed valve plate of face valve.
Figure 169 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The perspective view of the moving valve plate of valve.
Figure 169 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The top view of the fixed valve plate of valve.
Figure 169 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The top view of the moving valve plate of valve.
Figure 169 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The bottom view of the fixed valve plate of valve.
Figure 169 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The bottom view of the moving valve plate of valve.
Figure 170 A is the structure of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Schematic diagram, wherein water treatment system shown in the figure is in purification-softening working position, and arrow is oriented to water (flow) direction in the figure.
Figure 170 B is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core (or Softening box) backwash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 170 C is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device backwash working position, and arrow is oriented to water in the figure
Flow direction.
Figure 170 D is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in softening filter core reproduction operation position, and arrow is oriented to water in the figure
Flow direction.
Figure 170 E is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure be in softening filter core (softening plant) just wash working position, arrow in the figure
Head is oriented to water (flow) direction.
Figure 170 F is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in purification device and just washes working position, and arrow is oriented to water in the figure
Flow direction.
Figure 170 G is the another of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Structural schematic diagram, wherein water treatment system shown in the figure is in moisturizing working position, and arrow is oriented to water (flow) direction in the figure.
Figure 171 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The structural schematic diagram of the moving valve plate of valve, wherein the dotted line in the figure show the conductive channel of the moving valve plate.
Figure 171 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
The equal part schematic diagram of the moving valve plate of valve, wherein the figure illustrates the specific position of halving that each channel is arranged on the moving valve plate.
Figure 172 A is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its first working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 B is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its second working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 C is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its third working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 D is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its four working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 E is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its five working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 F is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its six working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Figure 172 G is the plane of the optional implementation of the above-mentioned water treatment system according to the 6th preferred embodiment of the utility model
Valve is in its seven working position, connection schematic diagram between the channel of the moving valve plate of the flat valve and the channel of fixed valve plate, wherein
Dash area in the figure show the moving valve plate of the flat valve and the interconnected channel of fixed valve plate.
Specific embodiment
It is described below for disclosing the utility model so that those skilled in the art can be realized the utility model.It retouches below
Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It is retouched following
The basic principle of the utility model defined in stating can be applied to other embodiments, deformation scheme, improvement project, etc. Tongfangs
The other technologies scheme of case and the spirit and scope without departing from the utility model.
It will be understood by those skilled in the art that in the exposure of the utility model, term " longitudinal direction ", " transverse direction ", "upper",
The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed
System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, without
It is that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore on
Stating term should not be understood as limiting the present invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below
Illustrate to being given for example only property of embodiment the utility model, rather than is used to limit the scope of the utility model.
With reference to Fig. 1 to Figure 30 G of the utility model attached drawing, according to the water treatment system of the first preferred embodiment of the utility model
It is illustrated, it is suitable for carrying out purifying-sofening treatment to pending water (or raw water), wherein the water treatment system includes one
10, purification devices 20 of fluid valve and a softening plant 30, wherein the fluid valve 10 includes a valve body 11 and a valve
Core 1, wherein the fluid valve 10 has opening 1101, one second openings, the 1102, thirds of inner cavity 110, one first
The opening 1107 of opening 1106, one the 7th of opening 1105, one the 6th of opening 1104, one the 5th of opening 1103, one the 4th
With one the 8th opening 1108, wherein the spool 1 is arranged on the inner cavity 110.Preferably, which is further formed one
A 9th opening 1109.It is appreciated that first opening 1101, second opening 1102, third opening the 1103, the 4th are opened
The 1106, the 7th opening 1107 of the 1105, the 6th opening of the 1104, the 5th opening of mouth and the 8th opening 1108 are preferably separated by
The valve body 11 of the fluid valve 10 is set with opening.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, according to the water of the first preferred embodiment of the utility model
Processing system has first working condition, second working condition and a third working condition, wherein at the water
When reason system is in first working condition, the fluid valve 10 formed one respectively with the valve body 11 this first opening 1101 and
5th opening, 1105 the first communicating passage 1001, one for being connected respectively with second opening 1102 of the valve body 11 and should
7th opening, 1107 the second communicating passage 1002 for being connected and one respectively with the 6th opening 1106 of the valve body 11 and this
The third connecting channel 1003 that 8th opening 1108 is connected, when the water treatment system is in second working condition, the stream
Body valve 10 forms the 4th connection being connected respectively with first opening 1101 of the valve body 11 and the 7th opening 1107
Channel 1004 and the 5th connection being connected respectively with the 6th opening 1106 of the valve body 11 and the 9th opening 1109
Channel 1005, when the water treatment system is in the third working condition, the fluid valve 10 formed one respectively with the valve body 11
First opening 1101 and the 6th be open 1106 the 6th communicating passages 1006 that are connected and one respectively with the valve body 11
The 5th opening 1105 and the 9th be open 1109 the 7th communicating passages 1007 that are connected.Preferably, according to the utility model
The water treatment system of first preferred embodiment further has the 4th working condition and the 5th working condition, when the water
When processing system is in four working conditions, the fluid valve 10 formed one respectively with the valve body 11 this first opening 1101
Be open respectively with the 7th of the valve body 11 the with 1,103 1008, one, eight connectivity channel being connected of third opening 1107 and
4th opening, 1104 the 9th communicating passage 1009 that is connected and one be open respectively with the 6th of the valve body 11 the 1106 and
The tenth communicating passage 10010 that 9th opening 1109 of the fluid valve 10 is connected, when the water treatment system is in the 5th
When working condition, the fluid valve 10 formed one respectively with the valve body 11 this first opening 1101 and the 6th be open 1106
The 11st communicating passage 10011 being connected and one are open with the 7th opening 1107 and the 9th of the valve body 11 respectively
1109 the 12nd communicating passages 10012 being connected.It is highly preferred that according to the water process system of the first preferred embodiment of the utility model
System further has the 6th working condition and the 7th working condition, when the water treatment system is in the 6th work shape
When state, what the fluid valve 10 formation one was connected with first opening 1101 of the valve body 11 and the 5th opening 1105 respectively
Tenth tee joint channel 10013 and one are open with the 6th opening 1106 of the valve body 11 and the 9th respectively 1109 to be connected
The 14th communicating passage 10014, when the water treatment system is in seven working conditions, the fluid valve 10 formed one point
The 15th communicating passage 10015 not being connected with first opening 1101 of the valve body 11 and the 4th opening 1104.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, further, when preferable according to the utility model first
The water treatment system of embodiment is in second working condition, the third working condition, the 4th working condition, the 5th work
When state, the 6th working condition and seven working conditions, the fluid valve 10 formed one respectively with the valve body 11 this
The 16th communicating passage 10016 that one opening 1101 is connected with second opening 1102;Second working condition, this
When three working conditions, the 4th working condition, the 6th working condition and seven working conditions, which forms one
The 17th communicating passage 10017 being connected respectively with first opening 1101 of the valve body 11 and the 8th opening 1108;With
In five working conditions, which forms one and opens respectively with first opening 1101 and the 8th of the valve body 11
The tenth eight connectivity channels 10018 that mouth 1108 is connected.
As shown in Fig. 1 to Figure 30 G of attached drawing, according to the fluid valve of the water treatment system of the first preferred embodiment of the utility model
10 be a flat valve, and wherein the flat valve 10 further comprises a moving valve plate 13 and a fixed valve plate 12, and wherein this determines valve
Piece 12 has a first fluid control plane 120, which has a second fluid control plane 130, wherein the dynamic valve
Piece 13 and the fixed valve plate 12 are arranged on the inner cavity 110, and wherein the second fluid control plane 130 of the moving valve plate 13 is set
In the first fluid control plane 120 of the fixed valve plate 12, and the moving valve plate 13 is set and can rotate relative to the fixed valve plate 12,
In the purification device 20 there is one first connection opening 201 be connected to one second be open 202, the wherein softening plant 30 packet
A Softening box 31 is included, wherein the Softening box 31 has first lead-through opening 301 and second lead-through opening 302,
In the inner cavity 110 of the valve body 11 1101 be connected with first opening, the first connection opening 201 of the purification device 20
It is connected with the 5th opening 1105 of the valve body 11, the second connection opening 202 of the purification device 20 and the Softening box 31
First lead-through opening 301 be connected with the 6th of the valve body 11 opening 1106, second conducting of the Softening box 31
Opening 302 is connected with the 7th opening 1107 of the valve body 11.Therefore, when the fluid valve 10 is a flat valve, the stream
The spool 1 of body valve 10 includes the moving valve plate 13 and the fixed valve plate 12.Furthermore, it is to be understood that due to the valve of the flat valve 10
The inner cavity 110 of body 11 is connected with first opening 1101, and therefore, pending water passes through first opening 1101 and the inner cavity
110 are provided.
As shown in Fig. 1 to Figure 30 G of attached drawing, according to the softening of the water treatment system of the first preferred embodiment of the utility model
Device 30 further comprises an ejector 32 and a brine tank 33, and wherein there is the ejector 32 one to be suitable for and the valve body
11 1103 exit wound of bullet 321 that is connected of third opening and one are suitable for being connected with the 4th opening 1104 of the valve body 11
Logical entry portal 322, wherein the brine tank 33 is suitable for being connected with the ejector 32, to make the salt from the brine tank 33
Liquid can be by the ejector 32 and the 4th opening 1104, and flows to through the flat valve 10 Softening box of the softening plant 30
31, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when the utility model water treatment system is in one
When softening filter core and inhaling salt reproduction operation state, raw water or pending water are flowed into this from first opening 1101 of the valve body 11
Then the inner cavity 110 of valve body 11 flows into third opening 1103 by an eight connectivity channel 1008, then flows into this and penetrate
The exit wound of bullet 321 for flowing device 32 mixes after the liquid from the brine tank 33 through the ejector 32 by 32 jet stream of ejector
The entry portal 322 flow into the 4th opening 1104 of the valve body 11, then being flowed by the 9th communicating passage 1009 should
7th opening 1107, the water process material into second lead-through opening 302 of the Softening box 31, in the counter-current regeneration Softening box 31
Material or mechanism flow out after softening resin from first lead-through opening 301, then flow through the 6th opening of the valve body 11
The tenth communicating passage 10010 is flowed into after 1106, then from one the 9th opening, 1109 outflow of the flat valve 10.It can manage
Solution, although the utility model exemplarily only describes to provide saline solution mode to Softening box 31 by ejector 32, however, saline solution
It can otherwise or mechanism by the 4th opening of the flat valve 10 1104 is provided to the Softening box 31.Therefore,
The limitation of the utility model should not be become in such a way that ejector 32 provides saline solution to Softening box 31.
It will be appreciated by those skilled in the art that the flat valve 10 of the utility model water treatment system can further have one
A bindiny mechanism for being arranged on the valve body 11, such as connection screw thread, snap fit connector, in order to the flat valve 10 and the water process
The other structures component of system, such as purification device, softening plant are connected, to guide water flow to flow to purification device, soft respectively
Disguise each communicating passage that the Softening box set and the flat valve 10 are formed.
As shown in Fig. 1 to Figure 30 G of attached drawing, have one according to the water treatment system of the first preferred embodiment of the utility model
A first working condition, second working condition and a third working condition, wherein when the water treatment system be in this
When one working condition, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 formed one respectively with the valve body 11 this first
Opening 1101 and the 5th be open 1105 the first communicating passages 1001, one for being connected respectively with the valve body 11 this second
Opening 1102 and the 7th be open 1107 the second communicating passages 1002 for being connected and one respectively with the valve body 11 the 6th
The third connecting channel 1003 that opening 1106 is connected with the 8th opening 1108, when the water treatment system is in second work
When state, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 formed one respectively with first opening of the valve body 11
1101 and 1107 the 4th communicating passage 1004 that is connected of the 7th opening and one respectively with the 6th opening of the valve body 11
1106 the 5th communicating passages 1005 being connected with the 9th opening 1109 of the flat valve 10, when the water treatment system is in this
When third working condition, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 formed one respectively with the valve body 11 this
One opening 1101 and the 6th be open 1106 the 6th communicating passages 1006 that are connected and one respectively with the valve body 11 this
The 7th communicating passage 1007 that five openings 1105 are connected with the 9th opening 1109 of the flat valve 10.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in first working condition, the flat valve 10 formed first communicating passage 1001 respectively with the valve body 11
First opening 1101 and the 5th opening 1105 be connected, second communicating passage 1002 respectively with the valve body 11 this
Second opening 1102 and the 7th is open and 1107 is connected, the third connecting channel 1003 respectively with the valve body 11 the 6th
Opening 1106 is connected with the 8th opening 1108, so that raw water be allowed to be flowed into this from first opening 1101 of the valve body 11
The inner cavity 110 of valve body 11, then by the flat valve 10 formed first communicating passage 1001, the valve body 11 the 5th
Opening 1105, the first connection opening 201 of the purification device 20 flow into the purification device 20, and raw water passes through the purification device 20
The water purification obtained after purified treatment is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way,
First lead-through opening 301 that wherein water purification flows through the Softening box 31 all the way flows into the Softening box 31, and after softened processing
To softened water, softened water is flowed out from second lead-through opening 302 of the Softening box 31, then the 7th opening through the valve body 11
1107, second communicating passage 1002 of the flat valve 10, most afterwards through the valve body 11 this second opening 1102 outflow and to
Softened water is supplied at family, and the third connecting that another way water purification flows through the 6th opening 1106, the flat valve 10 of the valve body 11 is led to
Road 1003, most the 8th opening 1108 through the valve body 11 flows out and supplies water purification to user afterwards.Therefore, when the water treatment system
When being in first working condition, the utility model water treatment system can provide water purification and softened water to user simultaneously.Accordingly
Ground, first working condition of the water treatment system correspond to purification-softening working condition of the water treatment system.Therefore, when
When the water treatment system is in first working condition, 1101 (or the inner cavity of the valve body 11 of the first opening of the valve body 11
110), the 5th opening 1105 of the valve body 11, the first connection opening 201, the purification device 20 of the purification device 20
The second connection opening 202, first lead-through opening 301 of the Softening box 31 of the softening plant 30, the softening plant 30
Second opening of second lead-through opening 302 of the Softening box 31, the 7th opening 1107 of the valve body 11 and the valve body 11
1102 are sequentially communicated, so that the water-flowing path that the purification device 20 and the softening plant 30 are cascaded is formed,
So that raw water can flow to the softening plant 30 from the purification device 20 and be cleaned raw water successively and sofening treatment.Meanwhile
The 6th opening 1106, the 8th opening in the third connecting channel 1003 of the flat valve 10 and the valve body 11 of the valve body 11
1108 form water purification supply branch (water route), to provide water purification to user.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in second working condition, the flat valve 10 formed the 4th communicating passage 1004 respectively with the valve body 11
First opening 1101 and the 7th opening 1107 be connected, the 5th communicating passage 1005 respectively with the valve body 11 this
The 9th of 6th opening 1106 and the flat valve 10, which is open, 1109 to be connected, thus allow raw water from the valve body 11 this
One opening 1101 is flowed into the inner cavity 110 of the valve body 11, the 4th communicating passage then formed by the flat valve 10
1004 flow into the 7th opening 1107, then second lead-through opening 302 through the Softening box 31 flows into the Softening box 31, and to this
Softener material (or material for water treatment) in Softening box 31, such as softening resin, after back flush, obtained sewage or waste water from
First lead-through opening 301 of the Softening box 31 flows out, and the 6th opening 1106 for then flowing through the valve body 11 flows into the plane
5th communicating passage 1005 of valve 10, then from 1109 outflow of the 9th opening of the flat valve 10.In other words, when the water
When processing system is in second working condition, the utility model water treatment system is controllable to softening filter core, such as Softening box 31
Carry out back flush.Correspondingly, second working condition of the water treatment system corresponds to the softening filter core of the water treatment system
(softening plant) backwash working condition.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in the third working condition, the flat valve 10 formed the 6th communicating passage 1006 respectively with the valve body 11
First opening 1101 and the 6th opening 1106 be connected, the 7th communicating passage 1007 respectively with the valve body 11 this
The 9th of 5th opening 1105 and the flat valve 10, which is open, 1109 to be connected, thus allow raw water from the valve body 11 this
One opening 1101 is flowed into the inner cavity 110 of the valve body 11, then flows into the 6th opening by the 6th communicating passage 1006
1106, the second connection opening 202 of the purification device 20 is entered back into, to the material for water treatment or machine in the purification device 20
After structure back flush, from 201 outflow of the first connection opening of the purification device 20, the 5th of the valve body 11 is then flowed through
Opening 1105 flows into the 7th communicating passage 1007, then from 1109 outflow of the 9th opening of the flat valve 10;Correspondingly, should
The third working condition of water treatment system corresponds to the purification device backwash working condition of the water treatment system.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, at the water according to the first preferred embodiment of the utility model
Reason system further has the 4th working condition and the 5th working condition, when the water treatment system is in the 4th work
When making state, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 form one and first open with this of the valve body 11 respectively
1008, one, the eight connectivity channel that mouth 1101 and third opening 1103 are connected is open with the 7th of the valve body 11 the respectively
1107 and 1104 the 9th communicating passage 1009 that is connected of the 4th opening and one respectively with the 6th opening of the valve body 11
1106 the tenth communicating passages 10010 being connected with the 9th opening 1109 of the flat valve 10;When the water treatment system is in
When five working conditions, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 formed one respectively with the valve body 11
First opening 1101 and the 6th be open 1106 the 11st communicating passages 10011 that are connected and one respectively with the valve body 11
The 7th opening 1107 and the flat valve 10 the 9th be open 1109 the 12nd communicating passages 10012 that are connected.
When the water treatment system according to the first preferred embodiment of the utility model is in four working conditions, the flat valve
10 eight connectivity channels 1008 formed are connected with first opening 1101 of the valve body 11 and third opening 1103 respectively
Logical, the 9th communicating passage 1009 is connected with the 7th opening 1107 of the valve body 11 and the 4th opening 1104 respectively, should
Tenth communicating passage 10010 is open 1109 with the 9th of the 6th of the valve body 11 opening 1106 and the flat valve 10 the respectively
It is connected, so that raw water be allowed to be flowed into the inner cavity 110 of the valve body 11 from first opening 1101 of the valve body 11, then leads to
It crosses the eight connectivity channel 1008 and flows into third opening 1103, then flow into the exit wound of bullet 321 of the ejector 32, penetrated by this
32 jet stream of device is flowed, the entry portal 322 through the ejector 32 flows into the valve body 11 after mixing the liquid from the brine tank 33
Then 4th opening 1104 flows into the 7th opening 1107 by the 9th communicating passage 1009, into the Softening box 31
Second lead-through opening 302 after the softening resin in the counter-current regeneration Softening box 31, is flowed out from first lead-through opening 301,
The 6th opening 1106 for then flowing through the valve body 11 flows into the tenth communicating passage 10010, then being somebody's turn to do from the flat valve 10
9th opening, 1109 outflow.Correspondingly, the 4th working condition of the water treatment system corresponds to the softening of the water treatment system
Filter core (softening plant) reproduction operation state.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in five working conditions, the flat valve 10 formed the 11st communicating passage 10011 respectively with the valve
First opening 1101 of body 11 and the 6th is open and 1106 is connected, the 12nd communicating passage 10012 respectively with the valve body
11 the 7th opening 1107 is connected with the 9th opening 1109 of the flat valve 10, to allow raw water from the valve body 11
The inner cavity 110 that first opening 1101 is flowed into the valve body 11, then by the 11st communicating passage 10011 flow into this
Six openings 1106, enter back into first lead-through opening 301 of the Softening box 31, to the material for water treatment or machine in the Softening box 31
It after structure forward direction is rinsed, is flowed out from second lead-through opening 302 of the Softening box 31, then flow through the valve body 11 the 7th opens
Mouth 1107 flows into the 12nd communicating passages 10012, then from 1109 outflow of the 9th opening of the flat valve 10.In other words
It says, when the water treatment system is in five working conditions, the utility model water treatment system is controllable to softening filter core, such as
Softening box 31 carries out positive flushing.Correspondingly, the 5th working condition of the water treatment system corresponds to the water treatment system
Working condition is just washed in softening filter core (softening plant).
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, at the water according to the first preferred embodiment of the utility model
Reason system further has the 6th working condition and the 7th working condition, when the water treatment system is in the 6th work
When making state, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 form one and first open with this of the valve body 11 respectively
Mouthfuls 1101 and the 5th be open the tenth tee joint channel 10013 that 1105 are connected and one respectively with the valve body 11 the 6th
The 14th communicating passage 10014 that opening 1106 is connected with the 9th opening 1109 of the flat valve 10;When the water process system
System is when being in seven working conditions, the moving valve plate 13 of the flat valve 10 and the fixed valve plate 12 formation one respectively with the valve body
The 15th communicating passage 10015 that 11 first opening 1101 is connected with the 4th opening 1104.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in six working conditions, the flat valve 10 formed the tenth tee joint channel 10013 respectively with the valve
First opening 1101 of body 11 and the 5th is open and 1105 is connected, the 14th communicating passage 10014 respectively with the valve body
11 the 6th opening 1106 is connected with the 9th opening 1109 of the flat valve 10, to allow raw water from the valve body 11
The inner cavity 110 that first opening 1101 is flowed into the valve body 11, then by the tenth tee joint channel 10013 flow into this
Five openings 1105 enter back into the first connection opening 201 of the purification device 20, to the material for water treatment in the purification device 20
Or after mechanism forward direction is rinsed, from 202 outflow of the second connection opening of the purification device 20, then flow through the valve body 11 this
Six openings 1106 flow into the 14th communicating passage 10014, then from 1109 outflow of the 9th opening of the flat valve 10.It changes
Sentence is talked about, and when the water treatment system is in six working conditions, the utility model water treatment system is controllable to fill purification
Set 20 carry out forward direction flushings.Correspondingly, the 6th working condition of the water treatment system corresponds to the purification of the water treatment system
Device just washes working condition.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
When processing system is in seven working conditions, the flat valve 10 formed the 15th communicating passage 10015 respectively with the valve
First opening 1101 of body 11 and the 4th is open and 1104 is connected, so that raw water be allowed first to open from this of the valve body 11
Mouth 1101 is flowed into the inner cavity 110 of the valve body 11, then flows into the 4th opening by the 15th communicating passage 10015
1104, then the entry portal 322 of the ejector 32 is flowed into, to 33 moisturizing of brine tank.In other words, when the water treatment system is in
When seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Correspondingly, the water treatment system
The 7th working condition correspond to the water treatment system brine tank moisturizing working condition.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
Processing system be in second working condition, the third working condition, the 4th working condition, the 5th working condition, this
When six working conditions and seven working conditions, moving valve plate 13 of the flat valve 10 and the 16th of the fixed valve plate 12 formation
Communicating passage 10016 allow raw water successively from first opening 1101 of the valve body 11, the inner cavity 110 of the valve body 11, this
16 communicating passages 10016 flow into second opening 1102 of the valve body 11, thus in second working condition, the third work
Make state, the 4th working condition, the 5th working condition, the 6th working condition and the 7th working condition to mention to user
For raw water.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, when the water according to the first preferred embodiment of the utility model
Processing system be in second working condition, the third working condition, the 4th working condition, the 6th working condition and this
When seven working conditions, the 17th communicating passage 10017 that the moving valve plate 13 and the fixed valve plate 12 of the flat valve 10 are formed permits
Perhaps raw water is successively from the first opening 1101, the inner cavity 110 of the valve body 11, the 17th communicating passage of the valve body 11
10017 flow into the 8th opening 1108 of the valve body 11, thus in second working condition, the third working condition, the 4th
Working condition, the 6th working condition and the 7th working condition provide raw water to user.Further, when practical according to this
When the water treatment system of novel first preferred embodiment is in five working conditions, the moving valve plate 13 of the flat valve 10 and should
Fixed valve plate 12 formed the tenth eight connectivity channel 10018 allow raw water successively from the valve body 11 this first opening 1101, should
The inner cavity 110, the tenth eight connectivity channel 10018 of valve body 11 flow into the 8th opening 1108 of the valve body 11, thus at this
5th working condition provides raw water to user.
Correspondingly, as shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 18 G of attached drawing, preferably implement according to the utility model first
The fluid valve (or flat valve) 10 of the water treatment system of example has first working position, second working position, one the
Three working positions, the 4th working position, the 5th working position, the 6th working position and the 7th working position, wherein when
When the fluid valve (or flat valve) 10 is in first working position, (moving valve plate 13 is fixed with this for the spool 1 of the fluid valve 10
Valve block 12) first communicating passage 1001, second communicating passage 1002 and the third connecting channel 1003 are formed, when the fluid
When valve (or flat valve) 10 is in second working position, the spool 1 of the fluid valve 10 forms 1004 He of the 4th communicating passage
5th communicating passage 1005, when the fluid valve (or flat valve) 10 is in the third working position, the valve of the fluid valve 10
Core 1 forms the 6th communicating passage 1006 and the 7th communicating passage 1007;Preferably, at the fluid valve (or flat valve) 10
In four working positions, the spool 1 of the fluid valve 10 forms the eight connectivity channel 1008, the 9th communicating passage 1009
With the tenth communicating passage 10010;When the fluid valve (or flat valve) 10 is in five working positions, which is somebody's turn to do
Spool 1 forms the 11st communicating passage 10011 and the 12nd communicating passage 10012;It is highly preferred that when the fluid valve (or
Flat valve) 10 when being in six working positions, the spool 1 of the fluid valve 10 forms the tenth tee joint channel 10013 and should
14th communicating passage 10014;When the fluid valve (or flat valve) 10 is in seven working positions, the valve of the fluid valve 10
Core 1 forms the 15th communicating passage 10015.Further, when the water process system according to the first preferred embodiment of the utility model
The fluid valve (or flat valve) 10 of system is in second working position, the third working position, the 4th working position, the 5th work
When position, the 6th working position and seven working positions, the spool 1 of the fluid valve 10 forms the 16th communicating passage 10016.
Further, when the fluid valve (or flat valve) 10 of the water treatment system according to the first preferred embodiment of the utility model is in
When second working position, the third working position, the 4th working position, the 6th working position and seven working positions, the fluid valve
10 spool 1 forms the 17th communicating passage 10017, when the water treatment system according to the first preferred embodiment of the utility model
The fluid valve (or flat valve) 10 when being in five working positions, the spool 1 of the fluid valve 10 forms the tenth eight connectivity
Channel 10018.
As shown in Figure 15 A to Figure 18 G of attached drawing, according to the water treatment system of the first preferred embodiment of the utility model this be flat
Face valve 10 has a first passage 101, a second channel 102, a third channel 103, a fourth lane 104, one
105, the 6th channels of a Five-channel, 106, the 7th channels the 9th channel of 107,108, one, the 8th channels
109,1010, the 11st 1011, the 12nd channels 1012 in channel in the tenth channel and the tenth triple channel
1013, the wherein first passage 101, the second channel 102, the third channel 103, the fourth lane 104, the Five-channel
105, the 6th channel 106, the 7th channel 107, the 8th channel 108 and the 12nd channel 1012 are respectively arranged on this and determine valve
Piece 12 simultaneously extends from the first fluid control plane 120 of the fixed valve plate 12 respectively;9th channel 109, the tenth channel
1010, the 11st channel 1011 and the tenth triple channel 1013 are respectively arranged on the moving valve plate 13 and respectively from the moving valve plates 13
The second fluid control plane 130 extends, and wherein the first passage 101 and the second channel 102 are open 1105 with the 5th respectively
Be connected, the third channel 103 and the fourth lane 104 are connected with the 7th opening 1107 respectively, the Five-channel 105 with
Second opening 1102 is connected, and the 6th channel 106 is connected with third opening 1103, the 7th channel 107 and this
Four openings 1104 are connected, and the 8th channel 108 is connected with the 6th opening 1106, the 12nd channel 1012 and the 8th
Opening 1108 is connected, and the 9th channel 109 is connected with first opening 1101 (by the inner cavity 110 of the valve body 11),
11st channel 1011 is connected with the 9th opening 1109.Preferably, the 9th opening 1109 is arranged on the flat valve
10 valve body 11, and the 9th opening 1109 is connected by a drain outlet 150 with the 11st channel 1011.Cause
This, optionally, the 9th opening 1109 of the flat valve 10 is formed in the moving valve plate 13, and the 9th opening of the flat valve 10
1109 are connected with the 11st channel 1011 and the drain outlet 150 respectively.It is appreciated that the utility model purification device
6th opening of 20 the second connection opening 202 and first lead-through opening 301 of the Softening box 31 and the valve body 11
1106 connection can be accomplished in several ways.As shown in Fig. 6 A of attached drawing, the 6th opening 1106 of the valve body 11 can pass through
One is connected with first lead-through opening 301 of the second connection opening 202 of the purification device 20 and the Softening box 31 respectively
Logical connecting pipeline (or triplate line) realize the second connection opening 202 of the purification device 20, the Softening box 31 this
Connection between one lead-through opening 301 and the 6th opening 1106 of the valve body 11.Optionally, the purification device 20 this second
The connection of 6th opening 1106 of first lead-through opening 301 and the valve body 11 of connection opening 202 and the Softening box 31
Can by be arranged on the valve body 11 communication paths realize, wherein the communication paths can be set respectively with the purification device 20
The second connection opening 202 and the valve body 11 the 6th be open and 1106 be connected, and respectively with the Softening box 31 this
One lead-through opening 301 is connected with the 6th opening 1106 of the valve body 11.Therefore, the 8th channel 108 of the valve body 11, should
The second connection opening 202 of purification device 20 and first lead-through opening 301 being somebody's turn to do by the valve body 11 of the Softening box 31
6th opening 1106 forms a three-port structure.In addition, in order to ensure the water in the inner cavity 110 of the valve body 11 enters the 9th
Channel 109, the 9th channel 109, which is set, to be kept always by a water inlet being connected always with exterior space 1091
It is connected with the inner cavity 110 of the valve body 11.
It is worth noting that, the first passage 101 and the second channel 102 of the flat valve 10 are open with the 5th respectively
1105 connection can be and respectively and by oneself be connected with the 5th opening 1105, can also pass through a fluid channel
It is connected;The third channel 103 of the flat valve 10 and the fourth lane 104 connection with the 7th opening 1107 respectively, can
To be respectively and to be by oneself connected with the 7th opening 1107, can also be connected by a fluid channel.For example, such as
Shown in Fig. 1 to Figure 14 of attached drawing, first passage 101 and the second channel 102 of the flat valve 10 pass through a first fluid
Channel 1211 is connected, which, which is set, is directly connected with the 5th opening 1105, to make the first passage
101 by the first fluid channel 1211 and the second channel 102, is also connected with the 5th opening 1105;The flat valve 10
The third channel 103 and the fourth lane 104 separately 1107 be connected with the 7th opening.Optionally, such as attached drawing
Figure 19 and Figure 20 shown in, which, which is set, directly 1105 is connected with the 5th opening, the second channel 102
By the first fluid channel 1211 and the first passage 101, also it is connected with the 5th opening 1105.Or optionally, should
First passage 101 and the second channel 102 of flat valve 10 discriminably and are by oneself connected with the 5th opening 1105;
Or optionally, as shown in Figure 21 of attached drawing, the third channel 103 of the flat valve 10 and the fourth lane 104 pass through one
Second fluid channel 1212 is connected, which, which is set, is directly connected with the 7th opening 1107, to make this
Fourth lane 104 is also connected with the 7th opening 1107 by the second fluid channel 1212 and the third channel 103;Or
Optionally, as shown in Figure 22 of attached drawing, the third channel 103 of the flat valve 10 and the fourth lane 104 pass through one the to person
Two fluid channels 1212 are connected, which, which is set, directly 1107 is connected with the 7th opening, thus make this
Triple channel 103 is also connected with the 7th opening 1107 by the second fluid channel 1212 and the fourth lane 104.It can be with
Understand, further, the first fluid channel 1211 and the second fluid channel 1212 may be disposed at being somebody's turn to do for the fixed valve plate 12
First fluid control plane 120 also may be disposed at the valve body 11 or the inside of the fixed valve plate 12.It is appreciated that the flat valve 10
The first passage 101 and the second channel 102 respectively with the connection of the 5th opening 1105 and the flat valve 10 this
Triple channel 103 and the fourth lane 104 connection with the 7th opening 1107 respectively, are also possible to company otherwise
It is logical.
As shown in Fig. 8 A to Figure 18 G of attached drawing, according to the water treatment system of the first preferred embodiment of the utility model this be flat
The moving valve plate 13 of face valve 10 can relative to fixed valve plate 12 rotate so that the flat valve 10 have first working position, one
A second working position, a third working position, wherein when flat valve 10 is in first working position, the flat valve 10 this
Nine channels 109 are connected with the first passage 101, the tenth channel 1010 respectively with the third channel 103 and the Five-channel
105 are connected, and the tenth triple channel 1013 is connected with the 8th channel 108 and the 12nd channel 1012 respectively;When this is flat
When face valve 10 is in second working position, the 9th channel 109 of the flat valve 10 is connected with the fourth lane 104, this
11 channels 1011 are connected with the 8th channel 108;When the flat valve 10 is in the third working position, the flat valve 10
The 8th channel 108 be connected with the 9th channel 109, the 11st channel 1011 and the first passage of the flat valve 10
101 are connected.
As shown in Fig. 8 A to Figure 18 G of attached drawing, according to the water treatment system of the first preferred embodiment of the utility model this be flat
Face valve 10 further has the 4th working position and the 5th working position, when flat valve 10 is in four working positions,
9th channel 109 of the flat valve 10 is connected with the 6th channel 106, the tenth channel 1010 respectively with the fourth lane
104 are connected with the 7th channel 107, and the 11st channel 1011 is connected with the 8th channel 108;At the flat valve 10
When five working positions, the 9th channel 109 of the flat valve 10 is connected with the 8th channel 108, the flat valve 10
11st channel 1011 is connected with the third channel 103, and the tenth channel 1010 of the flat valve 10 is respectively with the 8th
Channel 108 is connected with the 12nd channel 1012.
As shown in Fig. 8 A to Figure 18 G of attached drawing, according to the water treatment system of the first preferred embodiment of the utility model this be flat
Face valve 10 further has the 6th working position and the 7th working position, when the flat valve 10 is in the 6th working position
When, the 9th channel 109 of the flat valve 10 is connected with the second channel 102, the 11st channel of the flat valve 10
1011 are connected with the 8th channel 108;When the flat valve 10 is in seven working positions, the 9th of the flat valve 10 is logical
Road 109 is connected with the 7th channel 107.
It is appreciated that when the flat valve 10 is in first working position, according to the first preferred embodiment of the utility model
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109 of the flat valve 10 and the first passage
101 are connected, to form first communicating passage 1001, the tenth channel 1010 respectively with the third channel 103 and this
Five-channel 105 is connected, to form second communicating passage 1002, the tenth triple channel 1013 respectively with the 8th channel
108 are connected with the 12nd channel 1012, to form the third connecting channel 1003;When the flat valve 10 be in this second
When working position, is controlled according to the water treatment system of the first preferred embodiment of the utility model and be in the softening filter core (softening plant)
9th channel 109 of backwash working position, the flat valve 10 is connected with the fourth lane 104, to form the 4th connection
The 1004, the 11st channel 1011 of channel is connected with the 8th channel 108, to form the 5th communicating passage 1005;When
When the flat valve 10 is in the third working position, is controlled and be according to the water treatment system of the first preferred embodiment of the utility model
The purification device backwash working position, the 8th channel 108 of the flat valve 10 is connected with the 9th channel 109, to be formed
6th communicating passage 1006, the 11st channel 1011 are connected with the first passage 101, so that it is logical to form the 7th connection
Road 1007.Further, when the flat valve 10 is in four working positions, according to the water of the first preferred embodiment of the utility model
Processing system, which is controlled, is in the softening filter core reproduction operation position, the 9th channel 109 of the flat valve 10 and the 6th channel
106 are connected, to form the eight connectivity channel 1008, the tenth channel 1010 respectively with the fourth lane 104 and this
Seven channels 107 are connected, so that the 9th communicating passage 1009 is formed, the 11st channel 1011 and 108 phase of the 8th channel
Connection, to form the tenth communicating passage 10010;When the flat valve 10 is in five working positions, according to the utility model
The water treatment system of first preferred embodiment, which is controlled, to be in the softening filter core (softening plant) and just washes working position, the flat valve 10
The 9th channel 109 be connected with the 8th channel 108, to form the 11st communicating passage 10011, the flat valve 10
The 11st channel 1011 be connected with the third channel 103, to form the 12nd communicating passage 10012.More into one
Step ground, it is controlled according to the water treatment system of the first preferred embodiment of the utility model when which is in six working positions
When system is in the purification device and is just washing working position, the 9th channel 109 of the flat valve 10 is connected with the second channel 102,
To form the tenth tee joint channel 10013, the 11st channel 1011 of the flat valve 10 is connected with the 8th channel 108
It is logical, to form the 14th communicating passage 10014;When the flat valve 10 is in seven working positions, according to the utility model
The water treatment system of first preferred embodiment, which is controlled, is in the brine tank moisturizing working position, the 9th channel of the flat valve 10
109 are connected with the 7th channel 107, to form the 15th communicating passage 10015.It is appreciated that the 11st channel
1011 can be the through-hole for being arranged on the moving valve plate 13, wherein the 11st channel 1011 from the moving valve plate 13 this
Two fluid control planes 130 extend upwardly to its opposite another side, to arrange sewage or waste water upwards in corresponding working position
Out to the drain outlet 150.It is appreciated that when the flat valve 10 is in first working position, the tenth of the flat valve 10 the
Channel 1010 is connected with the third channel 103 and the Five-channel 105 respectively, and the moving valve plate 13 of the flat valve 10 should
Five-channel 105 and the inner cavity 110 of the valve body 11 are spaced, and the raw water in the inner cavity 110 to prevent the valve body 11 enters
The Five-channel 105, the tenth triple channel 1013 of the flat valve 10 respectively with the 8th channel 108 and the 12nd channel
1012 are connected, and the moving valve plate 13 of the flat valve 10 is by 110 phase of inner cavity in the 12nd channel 1012 and the valve body 11
It separates, the raw water in the inner cavity 110 to prevent the valve body 11 enters the 12nd channel 1012.
As shown in Fig. 8 A to Figure 18 G of attached drawing, further, when the water process according to the first preferred embodiment of the utility model
The flat valve 10 of system be in second working position, the third working position, the 4th working position, the 5th working position, this
When six working positions and seven working positions, the Five-channel 105 of the flat valve 10 and first opening 1101 of the valve body 11
It is connected (by the inner cavity 110 of valve body 11A), to form the 16th communicating passage 10016.Correspondingly, when according to this
The water treatment system of the first preferred embodiment of utility model be in second working position, the third working position, the 4th working position,
When the 5th working position, the 6th working position and seven working positions, raw water is allowed to first opening from the valve body 11
1101 flow into the inner cavity 110 of the valve body 11, and further from the inner cavity 110 of the valve body 11 by the fixed valve plate 12 this
Five-channel 105 flows to second opening 1102 of the valve body 11.
As shown in Fig. 8 A to Figure 18 G of attached drawing, further, when the water process according to the first preferred embodiment of the utility model
The flat valve 10 of system be in second working position, the third working position, the 4th working position, the 6th working position and this
When seven working positions, the 12nd channel 1012 of the flat valve 10 is connected with the inner cavity 110 of the valve body 11, should to be formed
17th communicating passage 10017.Correspondingly, when the water treatment system according to the first preferred embodiment of the utility model be in this second
When working position, the third working position, the 4th working position, the 6th working position and seven working positions, raw water is allowed to certainly should
First opening 1101 of valve body 11 flows into the inner cavity 110 of the valve body 11, and further from the inner cavity 110 of the valve body 11
The 8th opening 1108 of the valve body 11 is flowed to by the 12nd channel 1012 of the fixed valve plate 12.Further, when according to
When the flat valve 10 of the water treatment system of the first preferred embodiment of the utility model is in five working positions, the flat valve 10
The 9th channel 109 be connected with the 8th channel 108, the tenth channel 1010 respectively with the first passage the 101, the 8th
Channel 108 is connected with the 12nd channel 1012, so that the 9th channel 109 is connected with the 12nd channel 1012, from
And form the tenth eight connectivity channel 10018.Correspondingly, at the water treatment system according to the first preferred embodiment of the utility model
In five working positions, raw water is allowed to be flowed into the inner cavity of the valve body 11 from first opening 1101 of the valve body 11
110, the 8th channel 108 of the fixed valve plate 12 is then flowed by the 9th channel 109 of the moving valve plate 13, moves valve by this
1010 water conservancy diversion of the tenth channel of piece 13 enters the 12nd channel 1012 of the fixed valve plate 12, then flows to being somebody's turn to do for the valve body 11
8th opening 1108.
As shown in Fig. 8 A to Figure 18 G of attached drawing, correspondingly, when the flat valve 10 is in the first working position, the water process
Machine is in purification-softening working condition, and raw water is flowed into the inner cavity of the valve body 11 from first opening 1101 of the valve body 11
110, the first passage 101 of the fixed valve plate 12 is then flowed by the 9th channel 109 of the moving valve plate 13, then by being somebody's turn to do
5th opening 1105 of valve body 11 enters the first connection opening 201 of the purification device 20, by the purification device 20
After material for water treatment or mechanism processing, water purification is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into
Two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, by the softening resin in the Softening box 31
After processing, from second lead-through opening 302 of the Softening box 31 flow out, then flow through the valve body 11 the 7th opening 1107 into
The third channel 103 for entering the fixed valve plate 12 enters the fixed valve plate 12 by 1010 water conservancy diversion of the tenth channel of the moving valve plate 13
The Five-channel 105, then by the valve body 11 this second opening 1102 to user supply sofening treatment after water, another way
The 6th opening 1106 that water purification flows through the valve body 11 enters the 8th channel 108 of the fixed valve plate 12, by the moving valve plate 13
1013 water conservancy diversion of the tenth triple channel enter the fixed valve plate 12 the 12nd channel 1012, most the 8th afterwards through the valve body 11
Opening 1108 flows out and supplies water purification to user;When the flat valve 10 is in the second working position, it is soft which is in this
Change filter core (softening plant) backwash working condition, raw water is flowed into the valve body 11 from first opening 1101 of the valve body 11
Then the inner cavity 110 flows into the fourth lane 104 of the fixed valve plate 12, then by the 9th channel 109 of the moving valve plate 13
Second lead-through opening 302 for entering the Softening box 31 by the 7th opening 1107 of the valve body 11, in the Softening box 31
Softening resin back flush after, from first lead-through opening 301 of the Softening box 31 flow out, then flow through the valve body 11 should
6th opening 1106 passes through the 11st channel 1011 in the 8th channel 108 and the moving valve plate 13 of the fixed valve plate 12, then
From 1109 outflow of the 9th opening of the flat valve 10;When the flat valve 10 is in third working position, which is in
Purification device backwash working condition, raw water are flowed into the inner cavity of the valve body 11 from first opening 1101 of the valve body 11
110, the 8th channel 108 of the fixed valve plate 12 is then flowed by the 9th channel 109 of the moving valve plate 13, then by being somebody's turn to do
6th opening 1106 of valve body 11 enters the second connection opening 202 of the purification device 20, in the purification device 20
After material for water treatment or mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, the valve is then flowed through
5th opening 1105 of body 11, into the first passage 101 of the fixed valve plate 12, passes through the 11st of the moving valve plate 13
Nineth opening 1109 outflow of the channel 1011 from the flat valve 10.Further, when the flat valve 10 is in the 4th working position
When, which is in the softening filter core reproduction operation state, and raw water is flowed into from first opening 1101 of the valve body 11
Then the inner cavity 110 of the valve body 11 flows into the 6th of the fixed valve plate 12 the by the 9th channel 109 of the moving valve plate 13
Then channel 106 is flowed into the exit wound of bullet 321 of the ejector 32 by the third opening 1103 of the valve body 11, penetrated by this
32 jet stream of device is flowed, the entry portal 322 through the ejector 32 flows into the valve body 11 after mixing the liquid from the brine tank 33
4th opening 1104, subsequently into the 7th channel 107 of the fixed valve plate 12, using the tenth channel of moving valve plate 13
1010 water conservancy diversion enter the fourth lane 104 of the fixed valve plate 12, and the 7th opening 1107 for then flowing through the valve body 11, which enters, is somebody's turn to do
Second lead-through opening 302 of Softening box 31, in the counter-current regeneration Softening box 31 as after softening resin, opened from first conducting
Mouth 301 flows out, and the 6th opening 1106 for then flowing through the valve body 11 enters the 8th channel 108 of the fixed valve plate 12, then leads to
The 11st channel 1011 for crossing the moving valve plate 13, from 1109 outflow of the 9th opening of the flat valve 10;When the flat valve 10
When in five working positions, which is in the softening filter core (softening plant) and just washes working condition, and raw water is from the valve body
11 first opening 1101 is flowed into the inner cavity 110 of the valve body 11, then passes through the 9th channel 109 of the moving valve plate 13
The 8th channel 108 of the fixed valve plate 12 is flowed into, the Softening box 31 is then entered by the 6th opening 1106 of the valve body 11
First lead-through opening 301, after rinsing to the softening resin forward direction in the Softening box 31, this from the Softening box 31 second is led
The outflow of mouth 302 is opened up, the 7th opening 1107 of the valve body 11 is then flowed through, passes through the third channel of the fixed valve plate 12
103 and the moving valve plate 13 the 11st channel 1011, then from 1109 outflow of the 9th of the flat valve 10 opening.More into one
Step ground, when the flat valve 10 is in six working positions, which is in the purification device and just washes working condition, and raw water is certainly
First opening 1101 of the valve body 11 is flowed into the inner cavity 110 of the valve body 11, then passes through the 9th of the moving valve plate 13
Channel 109 flows into the second channel 102 of the fixed valve plate 12, and then being entered by the 5th opening 1105 of the valve body 11 should
Purification device 20 this first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from
202 outflow of the second connection opening of the purification device 20, then flows through the 6th opening 1106 of the valve body 11, fixed into this
8th channel 108 of valve block 12 passes through the 11st channel 1011 of the moving valve plate 13 from the 9th of the flat valve 10
1109 outflow of opening;When the flat valve 10 is in seven working positions, which is in the brine tank moisturizing working condition,
Raw water is flowed into the inner cavity 110 of the valve body 11 from first opening 1101 of the valve body 11, then passes through the moving valve plate 13
9th channel 109 flows into the 7th channel 107 of the fixed valve plate 12, then flows through the 4th opening 1104 of the valve body 11
Entry portal 322 for flowing into the ejector 32, to 33 moisturizing of brine tank.Therefore, in each working position, according to the utility model first
The inner cavity 110 of the flat valve 10 of the water treatment system of preferred embodiment respectively with first opening 1101 and the 9th channel
109 are connected, so that first opening 1101 of the flat valve 10 can pass through the inner cavity 110 and the 9th channel 109
It is connected, and realizes pending water in the different traffic organisings of each working position.In addition, preferably implementing according to the utility model first
9th opening 1109 of the flat valve 10 of the water treatment system of example is open as blowdown, is directly or indirectly connected to the flat valve
10 the 11st channel 1011 may be formed at the valve body 11 of the flat valve 10, also may be formed at a drain outlet.
As shown in Figure 18 A to Figure 18 G of attached drawing, it is preferable that when the flat valve 10 is in the first working position, the flat valve
10 second channel 102 and the fourth lane 104 are closed by the moving valve plate 13 respectively;When the flat valve 10 is in the second work
When position, first passage 101 and the third channel 103 of the flat valve 10 are closed by the moving valve plate 13 respectively;When the flat valve
10 when being in third working position, and the third channel 103 of the flat valve 10 and the fourth lane 104 are respectively by 13 envelope of moving valve plate
It closes;When the flat valve 10 is in four working positions, first passage 101 and the second channel 102 of the flat valve 10 are distinguished
It is closed by the moving valve plate 13;When flat valve 10 is in five working positions, the second channel 102 and the 4th of the flat valve 10
It is closed respectively by the moving valve plate 13 in channel 104;When the flat valve 10 is in six working positions, this of the flat valve 10 is first logical
Road 101 and the third channel 103 are closed by the moving valve plate 13 respectively.
As shown in Figure 18 A to Figure 18 G of attached drawing, it is highly preferred that when the flat valve 10 is in the first working position, the plane
6th channel 106 of valve 10 and the 7th channel 107 are closed by the moving valve plate 13, and the 11st channel 1011 is by the fixed valve plate
12 closings;When the flat valve 10 is in the second working position, the 6th channel 106 of the flat valve 10 is by 13 envelope of moving valve plate
Close, the tenth triple channel 1013 is connected with the 7th channel 107, the tenth channel 1010 of the flat valve 10 respectively with this
Two channels 102 are connected with the 8th channel 108;When the flat valve 10 is in third working position, the flat valve 10 this
Ten channels 1010 are connected with the 8th channel 108, and the 6th channel 106 of the flat valve 10 and the 7th channel 107 are distinguished
It is closed by the moving valve plate 13, the tenth triple channel 1013 of the flat valve 10 is connected with the second channel 102;When the plane
When valve 10 is in four working positions, the tenth triple channel 1013 of the flat valve 10 is connected with the third channel 103;When this is flat
When face valve 10 is in five working positions, valve is moved by this respectively in the 6th channel 106 of the flat valve 10 and the 7th channel 107
Piece 13 is closed, and the tenth triple channel 1013 of the flat valve 10 is connected with the 8th channel 108;When the flat valve 10 is in the
When six working positions, the 6th channel 106 of the flat valve 10 and the 7th channel 107 are closed by the moving valve plate 13 respectively, this is flat
Tenth channel 1010 of face valve 10 is connected with the 8th channel 108, the tenth triple channel 1013 of the flat valve 10 with should
Fourth lane 104 is connected;When the flat valve 10 is in seven working positions, the first passage 101 of the flat valve 10 and should
Third channel 103 is closed by the moving valve plate 13 respectively, the tenth channel 1010 of the flat valve 10 respectively with the second channel 102
It is connected with the fourth lane 104, the tenth triple channel 1013 of the flat valve 10 is connected with the 6th channel 106.
It is worth noting that the first passage 101 of the flat valve 10, the second channel 102, the third channel 103, should
Fourth lane 104, the Five-channel 105, the 6th channel 106, the 7th channel 107, the 8th channel 108 and the 12nd
Channel 1012 is set to the first fluid control plane 120 of the fixed valve plate 12 with being spaced respectively;9th channel the 109, the tenth
Channel 1010, the 11st channel 1011 and the tenth triple channel 1013 be set to being spaced respectively the moving valve plate 13 this
Two fluid control planes 130.In other words, the first passage 101 of the flat valve 10, the second channel 102, the third channel
103, the fourth lane 104, the Five-channel 105, the 6th channel 106, the 7th channel 107, the 8th channel 108 and should
12nd channel 1012 is respectively formed the access portal for being arranged on the first fluid control plane 120 of the fixed valve plate 12,
9th channel 109, the tenth channel 1010, the 11st channel 1011 and the tenth triple channel 1013 are respectively formed a quilt
The access portal of the second fluid control plane 130 of the moving valve plate 13 is set, when 13 quilt cover of moving valve plate of the flat valve 10
(the second fluid control plane 130) opposite (the first fluid control plane 120) setting, and the moving valve plate 13 is with respect to the fixed valve plate
When 12 rotation, the channel for being arranged on the moving valve plate 13 and the channel for being arranged on the fixed valve plate 12 pass through corresponding access portal
Be selectively connectable it is logical, thus formed corresponding communicating passage and control fluid (such as water flow) flow direction.
It is appreciated that the first passage 101, the second channel 102, the third channel the 103, the 4th of the flat valve 10
Channel 104, the Five-channel 105, the 6th channel 106, the 7th channel 107, the 8th channel 108, the 9th channel
109, the tenth channel 1010, the 11st channel 1011, the 12nd channel 1012 and the tenth triple channel 1013 can have
Any extension path (or direction) that can be realized interconnected relationship herein;The first passage 101 of the flat valve 10 is somebody's turn to do
Second channel 102, the third channel 103, the fourth lane 104, the Five-channel 105, the 6th channel the 106, the 7th are logical
Road 107, the 8th channel 108 and the 12nd channel 1012 are respectively formed at the first fluid control plane of the fixed valve plate 12
120 access portal and the 9th channel 109, the tenth channel 1010, the 11st channel 1011 and the tenth triple channel
1013 are respectively formed at the access portal of the second fluid control plane 130 of the moving valve plate 13, can have any can be realized originally
The shape for the relationship that is interconnected in text.For example, the 8th channel 108 is formed in the first fluid control plane of the fixed valve plate 12
120 access portal can be provided having a regular shape, can also be arranged to have an irregular shape.Therefore, should
The first passage 101 of flat valve 10, the second channel 102, the third channel 103, the fourth lane 104, the Five-channel
105, the 6th channel 106, the 7th channel 107, the 8th channel 108, the 9th channel 109, the tenth channel 1010, should
11st channel 1011, the extension path (or direction) in the 12nd channel 1012 and the tenth triple channel 1013 and its channel are opened
The shape of mouth should not become limitations of the present invention.
As shown in Figure 17 A to Figure 18 G of attached drawing, it is preferable that channel herein is closed, and refers to that respective channel is formed
In the first fluid control plane 120 of the fixed valve plate 12 of the flat valve 10 and the second fluid control plane 130 of the moving valve plate 13
Access portal in the specific works position (or working condition of water treatment system) of the flat valve 10, by the moving valve plate 13 and this determine
The entity part of valve block 12 covers, and can not be connected by access portal so as to cause between respective channel.For example, working as the plane
When valve 10 is in the first working position, the 6th channel 106 of the entity part face of the moving valve plate 13 flat valve 10 and this
Seven channels 107 are formed in the access portal of the first fluid control plane 120 of the fixed valve plate 12, thus make the flat valve 10 this
Six channels 106 and the 7th channel 107 are by the moving valve plate 13 closing (or obstruction), this is flat for the entity part face of the fixed valve plate 12
11st channel 1011 of face valve 10 is formed in the access portal of the second fluid control plane 130 of the moving valve plate 13, to make
It is closed by the fixed valve plate 12 in 11st channel 1011 of the flat valve 10.Correspondingly, it is arranged on the moving valve plate 13 herein
Channel and the channel for being arranged on fixed valve plate 12 between be connected, refer to the flat valve 10 specific works position (or
The working condition of water treatment system), the channel for being arranged on the moving valve plate 13 is formed in the second fluid control of the moving valve plate 13
The access portal in face 130 processed and the channel for being arranged on the fixed valve plate 12 form the first fluid control plane 120 of the fixed valve plate 12
Access portal selectively part or be just aligned and formed and allow the water-flowing path that passes through of water flow.For example, working as the flat valve
10 be in the first working position when, the 9th channel 109 and first passage 101 of the flat valve 10 align, thus make the two
Be connected and form first communicating passage 1001, the tenth channel 1010 respectively with the third channel 103 and the Five-channel
105 align, to both make second communicating passage 1002 that is connected and formed, the tenth triple channel 1013 respectively with this
Eight channels 108 and the 12nd channel 1012 align, to both make the third connecting channel 1003 that is connected and formed.
As shown in Figure 17 A to Figure 18 G of attached drawing, according to the water treatment system of the first preferred embodiment of the utility model this be flat
The first passage 101 of face valve 10, the 8th channel 108, the second channel 102, the fourth lane 104, the 7th channel
107, the 6th channel 106, the third channel 103 and the Five-channel 105 are deasil arranged in the fixed valve plate with this sequence
12;The 11st channel 1011, the tenth channel 1010, the 9th channel 109 and the tenth triple channel of the flat valve 10
1013 are deasil arranged in the moving valve plate 13 with this sequence.Optionally, first passage the 101, the 8th of the flat valve 10
Channel 108, the second channel 102, the fourth lane 104, the 7th channel 107, the 6th channel 106, the third channel 103
The fixed valve plate 12 is arranged in widdershins with this sequence with the Five-channel 105;11st channel 1011 of the flat valve 10,
Tenth channel 1010, the 9th channel 109 and the tenth triple channel 1013 are widdershins arranged in the moving valve plate with this sequence
13。
As shown in Figure 15 A to Figure 15 F and Figure 17 A to Figure 18 G of attached drawing, according to the water of the first preferred embodiment of the utility model
The fixed valve plate 12 of the flat valve 10 of processing system have first central part 121, one from first central part 121 to
First extension 122 of outer extension and one are from the outwardly extending first edge portion 123 of the first extension 122, the moving valve plate
13 have second central part 131, one from outwardly extending second extension 132 of the second central part 131 and one from
The outwardly extending second edge portion 133 of second extension 132, wherein the first fluid control plane 120 of the fixed valve plate 12 has
Have central part 1200 shown in a figure chain lines, wherein the central part 1200 be located at the fixed valve plate 12 this first
Central part 121, and the part except the central part 1200 of the first fluid control plane 120 is divided into chain-dotted line institute clockwise
The Part IV 1204, one of Part III 1203, one of second part 1202, one of the first part shown 1201, one
The Part IX of Part VIII 1208, one of Part VII 1207, one of Part VI 1206, one of Part V 1205, one
1209, a Part X 12010 and the tenth a part 12011;The second of the moving valve plate 13 of the flat valve 10
Body control plane 130 has central area 1300 shown in a figure chain lines, and wherein the central area 1300 is set to the dynamic valve
Second central part 131 of piece 13, and the part except the central area 1300 of the second fluid control plane 130 is clockwise
It is divided into a first area 1301, one 1303, one the 4th, the third region of second area 1302, one shown in chain-dotted line
1304, the 5th regions in region, 1305,1306, one, the 6th regions, 1307, one, District 7 domain Section Eight domain 1308,
One the 9th 1309, the tenth region 13010 in region and the 11st region 13011;Wherein the first passage 101 is from
The first part 1201 of one fluid control plane 120 extends downwardly;8th channel 108 from the fixed valve plate 12 this is first-class
The second part 1202, the Part III 1203, the Part IV 1204 and Part V 1205 of body control plane 120 to
Lower extension;The second channel 102 is from the Part VI 1206 of the first fluid control plane 120 of the fixed valve plate 12 to downward
It stretches;The Part VII 1207 of the fourth lane 104 from the first fluid control plane 120 of the fixed valve plate 12 extends downwardly;It should
7th channel 107 is extended downwardly from the Part VIII 1208 of the first fluid control plane 120;6th channel 106 from this
The Part IX 1209 of one fluid control plane 120 extends downwardly;The third channel 103 is from the first fluid control plane 120
The Part X 12010 extends downwardly;The tenth a part 12011 of the Five-channel 105 from the first fluid control plane 120
It extends downwardly;12nd channel 1012 is extended downwardly from the second part 1202 of the first fluid control plane 120;9th
Channel 109 is upwardly extended from the first area 1301 of the second fluid control plane 130;Tenth triple channel 1013 from this
The second area 1302 of two fluid control planes 130 upwardly extends;11st channel 1011 is from the second fluid control plane
The 130 Section Eight domain 1308 upwardly extends;Tenth channel 1010 is from the tenth region of the second fluid control plane 130
13010 upwardly extend with the 11st region 13011.
It is appreciated that when the moving valve plate 13 the second fluid control plane 130 be arranged on the fixed valve plate 12 this first
When fluid control plane 120,131 face of the second central part of the second fluid control plane 130 of the moving valve plate 13 fixed valve plate
First central part 121 of the 12 first fluid control plane 120, the second fluid control plane 130 of the moving valve plate 13 are somebody's turn to do
First extension 122 of the first fluid control plane 120 of 132 face of the second extension fixed valve plate 12, the moving valve plate 13
133 face of second edge portion of the second fluid control plane 130 fixed valve plate 12 the first fluid control plane 120
The first edge portion 123.
Optionally, second fluid of the first fluid control plane 120 of the fixed valve plate 12 of the flat valve 10 and moving valve plate 13
Control plane 130 is circle, which the second channel 102, the third channel 103, the fourth lane 104, is somebody's turn to do
Five-channel 105, the 6th channel 106, the 7th channel 107, the 8th channel 108 and the 12nd channel 1012 are along diameter
To the first fluid control plane 120 for being set to the fixed valve plate 12, and the 9th channel 109, the tenth channel 1010 and the tenth
Triple channel 1013 is radially set to the second fluid control plane 130 of the moving valve plate 13.
Preferably, the first passage 101 of the flat valve 10, the second channel 102, the third channel 103, the four-way
Road 104, the 6th channel 106, the 7th channel 107 and the 8th channel 108 be respectively set at the fixed valve plate 12 this
First extension 122 of one fluid control plane 120, the Five-channel 105 are arranged on the first fluid control plane 120
The first edge portion 123 simultaneously extends internally from the first edge portion 123, and the 12nd channel 1012 is arranged on the first fluid
The first edge portion 123 of control plane 120.It is highly preferred that the Five-channel 105 is arranged on the first fluid control plane 120
The first edge portion 123 and from the first edge portion 123 extend inwardly to the first fluid control plane 120 this first extend
Portion 122.
Preferably, the 9th channel 109 and the 11st channel 1011 of the flat valve 10 are respectively set at the dynamic valve
Second extension 132 of the second fluid control plane 130 of piece 13, the tenth channel 1010 and the tenth triple channel 1013 are divided
It is not arranged on the second edge portion 133 of the second fluid control plane 130 of the moving valve plate 13 and from the second edge portion
133 extend inwardly to second extension 132.
Preferably, the first fluid control plane 120 of the first passage 101 of the flat valve 10 from the fixed valve plate 12 is downward
With extend outwardly, the second channel 102 is extended downwardly and outwardly from the first fluid control plane 120 of the fixed valve plate 12, this
Triple channel 103 is extended downwardly and outwardly from the first fluid control plane 120 of the fixed valve plate 12, the fourth lane 104 is fixed from this
The first fluid control plane 120 of valve block 12 extends downwardly and outwardly, the Five-channel 105 is from the first fluid control of the fixed valve plate 12
Face 120 processed extends downwardly and outwardly, the 6th channel 106 from the first fluid control plane 120 of the fixed valve plate 12 downwardly and outwardly
Extend, the 7th channel 107 is extended downwardly and outwardly from the first fluid control plane 120 of the fixed valve plate 12, the 8th channel 108
It is extended downwardly and outwardly from the first fluid control plane 120 of the fixed valve plate 12, the 12nd channel 1012 is from the fixed valve plate 12
The first fluid control plane 120 extend downwardly and outwardly.
As shown in Fig. 1 to Fig. 7 of attached drawing, according to the flat valve of the water treatment system of the first preferred embodiment of the utility model
10 valve body 11 has an inner wall 111, and wherein the fixed valve plate 12 is set to upward suitable for the first fluid control plane 120
The inner cavity 110 and the moving valve plate 13 are suitable for the second fluid control plane 130 and are set to the inner cavity 110 facing downward, wherein the inner cavity
110 are connected with the 9th channel 109 always.It is worth noting that, the fixed valve plate 12 of the flat valve 10 can be detachable
The inner wall 111 of the valve body 11 is arranged in ground, can also be integrally formed with 111 phase of inner wall of the valve body 11 of the flat valve 10.
It will be understood by those skilled in the art that when the fixed valve plate 12 is removably disposed in the valve body 11,12 He of fixed valve plate
The synchronization between the fixed valve plate 12 and the valve body 11 is kept between the valve body 11 by a fixed mechanism.For example, such as attached drawing
Fig. 1 to Fig. 7 shown in, the fixed valve plate 12 have the outwardly projecting brake component 123 in an edge from the fixed valve plate 12, the valve body
11 inner wall 111 has a breaker slot 1110, and wherein be set can be with the valve body for the brake component 123 of the fixed valve plate 12
The breaker slot 1110 of 11 inner wall 111 is meshed, with ensure to be synchronised between the fixed valve plate 12 and the valve body 11 (or will not
Relatively rotate) and ensure to be arranged on each channel of the fixed valve plate 12 and be arranged on the corresponding opening phase of the valve body 11
Connection.It is appreciated that the fixed valve plate 12 can individually be made when the fixed valve plate 12 is removably disposed in the valve body 11
It makes.In other words, at this point, the fixed valve plate 12 can be made of wear-resistant material, to improve the fixed valve plate 12 (or entire flat valve)
Service life.Preferably, the smoothed processing of the first fluid control plane 120 of the fixed valve plate 12 is to reduce its degree of roughness.
As shown in Fig. 1 to Fig. 7 of attached drawing, according to the flat valve of the water treatment system of the first preferred embodiment of the utility model
10 further comprise a diversion member 15, and wherein the diversion member 15 forms the drain outlet 150, wherein the diversion member 15
Be set upwardly extended from the moving valve plate 13 and the drain outlet 150 of the diversion member 15 respectively with the flat valve this
Nine openings 1109 are connected with the 11st channel 1011, and (the 9th opening 1109 is arranged on the valve body of the flat valve 10
11) or the drain outlet 150 directly 1109 is connected that (the 9th opening 1109 is arranged on the plane with the 9th opening
The moving valve plate 13 of valve 10, and be connected with the 11st channel 1011), so that sewage or waste water can be from its outflow.
As shown in Fig. 1 to Fig. 7 of attached drawing, according to the flat valve of the water treatment system of the first preferred embodiment of the utility model
10 further comprise the driving element 18 upwardly extended from the moving valve plate 13, and wherein the driving element 18 is set and can drive
The moving valve plate 13 for moving the flat valve 10 rotates with respect to the fixed valve plate 12.Preferably, the driving element 18 and water conservancy diversion member
15 phase of part is integrally formed.Optionally, the driving element 18 and the diversion member 15 are two independent mechanisms.
As shown in Fig. 1 to Fig. 7 of attached drawing, according to the flat valve of the water treatment system of the first preferred embodiment of the utility model
10 further comprise a sealing element 17, and wherein the sealing element 17 is set practises physiognomy opposite with the driving element 18, wherein
The sealing element 17 forms a primary sealing area 170, which forms a secondary sealing area 180, and wherein this is close
The primary sealing area 170 of envelope element 17 is arranged on the secondary sealing area 180 of the driving element 18, so that working as the drive
Dynamic element 18 is rotated relative to the sealing element 17, when driving the moving valve plate 13 relative to the fixed valve plate 12 rotation, the driving element
The leakage of water is sealed and prevented between 18 and the sealing element 17.In addition, the sealing element 17 is set and is able to maintain the drive
Dynamic element 18 is in appropriate location, so that the moving valve plate 13 be kept to be in a predeterminated position.
As shown in Fig. 1 to Fig. 7 of attached drawing, according to the flat valve of the water treatment system of the first preferred embodiment of the utility model
The diameter of the inner cavity 110 of the slightly smaller than valve body 11 is set in the diameter of 10 moving valve plate 13, so that the flat valve 10
9th channel 109 can keep being connected with the inner cavity 110 of the valve body 11 by the water inlet 1091.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, at the water according to the first preferred embodiment of the utility model
The control device 16 of the flat valve 10 of reason system, which is set, to pass through one according to a purification-softening control instruction
Transmission mechanism 14 drives the driving element 18 to rotate such as transmission gear, to drive the moving valve plate 13 of the flat valve 10 is opposite should
Fixed valve plate 12 rotates, and is open respectively with the inner cavity 110 of the valve body 11 of the flat valve 10 and the 5th to form one
1105 the first communicating passages 1001, one being connected are open with second opening 1102 and the 7th of the valve body 11 respectively
1107 the second communicating passages 1002 being connected and one are open with the 6th opening 1106 and the 8th of the valve body 11 respectively
The 1108 third connecting channels 1003 being connected, to allow the inner cavity 110 of raw water from the valve body 11, by the flat valve 10
5th opening 1105 of first communicating passage 1001, the valve body 11 for being formed, first connection of the purification device 20 are opened
Mouthfuls 201 flow into the purification device 20, and the water purification that raw water obtains after 20 purified treatment of purification device is from the purification device 20
This second connection opening 202 outflow, then water purification is divided into two-way, wherein all the way water purification through the Softening box 31 this first conducting
Opening 301 flows into the Softening box 31, and softened water is obtained after softened processing, second conducting of softened water from the Softening box 31
Opening 302 flows out, then the 7th opening 1107, second communicating passage 1002 of the flat valve 10 through the valve body 11, most
Softened water is supplied by 1102 outflow of the second opening of the valve body 11 and to user, another way water purification flows through being somebody's turn to do for the valve body 11
The third connecting channel 1003 of 6th opening 1106, the flat valve 10, most the 8th opening 1108 through the valve body 11 flows afterwards
Supply water purification out and to user;According to softening filter core (softening plant) backwash control instruction, by the transmission mechanism 14, such as
Transmission gear drives the driving element 18 to rotate, to drive the moving valve plate 13 of the flat valve 10 with respect to 12 turns of the fixed valve plate
It is dynamic, thus what formation one was connected with the inner cavity 110 of the valve body 11 of the flat valve 10 and the 7th opening 1107 respectively
4th communicating passage 1004 and be open respectively with the 6th of the valve body 11 the 1106 and the 9th opening of the flat valve 10
1109 the 5th communicating passages 1005 being connected, to allow raw water to be flowed into the valve body from first opening 1101 of the valve body 11
Then 11 inner cavity 110 flows into the 7th opening 1107 by the 4th communicating passage 1004 that the flat valve 10 is formed, then
Second lead-through opening 302 through the Softening box 31 flows into the Softening box 31, and to softener material (or the water in the Softening box 31
Handle material), such as softening resin, after back flush, obtained sewage or waste water is opened from first conducting of the Softening box 31
Mouth 301 flows out, and the 6th opening 1106 for then flowing through the valve body 11 flows into the 5th communicating passage 1005 of the flat valve 10,
Then from 1109 outflow of the 9th of the flat valve 10 opening, meanwhile, it also forms one and second is opened with this of the valve body 11 respectively
Mouthfuls 1102 the 16th communicating passages 10016 being connected with the inner cavity 110, to allow raw water first to open from this of the valve body 11
Mouth 1101 is flowed into the inner cavity 110 of the valve body 11, then flows into being somebody's turn to do for the valve body 11 by the 16th communicating passage 10016
Second opening 1102, provides raw water to user, also forms one and is open 1108 and this is interior with the 8th of the valve body 11 respectively
The 17th communicating passage 10017 that chamber 110 is connected, to allow raw water to be flowed into this from first opening 1101 of the valve body 11
Then the inner cavity 110 of valve body 11 flows into the 8th opening 1108 of the valve body 11 by the 17th communicating passage 10017,
Raw water is provided to user;According to a purification device backwash control instruction, driven by the transmission mechanism 14 such as transmission gear
The driving element 18 rotation is moved, to drive the moving valve plate 13 of the flat valve 10 to rotate relative to the fixed valve plate 12, to form one
A the 6th communicating passage 1006 and a difference being connected respectively with the inner cavity 110 of the valve body 11 and the 6th opening 1106
The 7th communicating passages being connected with the 9th opening 1109 of the 5th opening 1105 of the valve body 11 and the flat valve 10
1007, to allow raw water from the inner cavity 110 that first opening 1101 of the valve body 11 is flowed into the valve body 11, then by should
6th communicating passage 1006 flows into the 6th opening 1106, the second connection opening 202 of the purification device 20 is entered back into, to this
After material for water treatment or mechanism back flush in purification device 20, from 201 stream of the first connection opening of the purification device 20
Out, the 5th opening 1105 for then flowing through the valve body 11 flows into the 7th communicating passage 1007, then from the flat valve 10
9th opening, 1109 outflow, meanwhile, also formed one respectively with second opening 1102 and 110 phase of inner cavity of the valve body 11
16th communicating passage 10016 of connection, to allow raw water to be flowed into the valve body 11 from first opening 1101 of the valve body 11
The inner cavity 110, second opening 1102 of the valve body 11 is then flowed by the 16th communicating passage 10016, to using
Person provides raw water, also formed one be open respectively with the 8th of the valve body 11 1108 and the inner cavity 110 be connected the 17th
Communicating passage 10017, to allow raw water from the inner cavity 110 that first opening 1101 of the valve body 11 is flowed into the valve body 11,
Then the 8th opening 1108 that the valve body 11 is flowed by the 17th communicating passage 10017, provides raw water to user.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, at the water according to the first preferred embodiment of the utility model
The control device 16 of the flat valve 10 of reason system, which is further set, to be instructed according to a softening filter core Regeneration control,
The driving element 18 is driven to rotate, to drive the moving valve plate 13 of the flat valve 10 such as transmission gear by the transmission mechanism 14
It rotates relative to the fixed valve plate 12, is connected respectively with the inner cavity 110 of the valve body 11 and third opening 1103 to form one
1008, one logical, eight connectivity channel is connected with the 7th opening 1107 of the valve body 11 and the 4th opening 1104 respectively
The 9th communicating passage 1009 and one be open respectively with the 6th of the valve body 11 1106 and the flat valve 10 the 9th open
The tenth communicating passages 10010 that mouth 1109 is connected, to allow raw water to be flowed into this from first opening 1101 of the valve body 11
Then the inner cavity 110 of valve body 11 flows into third opening 1103 by the eight connectivity channel 1008, then flows into the ejector
32 exit wound of bullet 321 mixes being somebody's turn to do through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
Entry portal 322 flows into the 4th opening 1104 of the valve body 11, then flows into the 7th by the 9th communicating passage 1009 and opens
Mouthfuls 1107, into second lead-through opening 302 of the Softening box 31, after the softening resin in the counter-current regeneration Softening box 31, from
First lead-through opening 301 outflow, the 6th opening 1106 for then flowing through the valve body 11 flow into the tenth communicating passage
10010, then from 1109 outflow of the 9th of the flat valve 10 opening, meanwhile, also formed one respectively with the valve body 11 should
Second opening, 1102 the 16th communicating passages 10016 that are connected with the inner cavity 110, with allow raw water from the valve body 11 this
One opening 1101 is flowed into the inner cavity 110 of the valve body 11, then flows into the valve body by the 16th communicating passage 10016
11 second opening 1102, provides raw water to user, also forms one and is open 1108 with the 8th of the valve body 11 respectively
The 17th communicating passage 10017 being connected with the inner cavity 110, to allow 1101 stream of the first opening of raw water from the valve body 11
Enter the inner cavity 110 to the valve body 11, then flow into the valve body 11 by the 17th communicating passage 10017 the 8th opens
Mouth 1108 provides raw water to user;Control instruction is just washed according to a softening filter core (softening plant), passes through the transmission mechanism
14, such as transmission gear, the driving element 18 is driven to rotate, to drive the moving valve plate 13 of the flat valve 10 with respect to the fixed valve plate 12
Rotation, to form the 11st connection being connected respectively with the inner cavity 110 of the valve body 11 and the 6th opening 1106
Channel 10011 and one are open with the 9th of the 7th opening 1107 of the valve body 11 and the flat valve 10 the respectively 1109 to be connected
The 12nd logical communicating passage 10012, to allow raw water to be flowed into the valve body 11 from first opening 1101 of the valve body 11
Then the inner cavity 110 flows into the 6th opening 1106 by the 11st communicating passage 10011, enters back into the Softening box 31
First lead-through opening 301, in the Softening box 31 material for water treatment or mechanism forward direction rinse after, from the Softening box 31
Second lead-through opening 302 outflow, the 7th opening 1107 for then flowing through the valve body 11 flow into the 12nd communicating passage
10012, then from 1109 outflow of the 9th of the flat valve 10 opening, meanwhile, also formed one respectively with the valve body 11 should
Second opening, 1102 the 16th communicating passages 10016 that are connected with the inner cavity 110, with allow raw water from the valve body 11 this
One opening 1101 is flowed into the inner cavity 110 of the valve body 11, then flows into the valve body 11 by the 16th communicating passage 10016
Second opening 1102, provide raw water to user, also formed one be open respectively with the 8th of the valve body 11 1108 and
The tenth eight connectivity channel 10018 that the inner cavity 110 is connected, to allow raw water to flow into from first opening 1101 of the valve body 11
To the inner cavity 110 of the valve body 11, the 8th opening of the valve body 11 is then flowed by the tenth eight connectivity channel 10018
1108, raw water is provided to user.
As shown in Fig. 8 A to Figure 14 and Figure 16 A to Figure 16 G of attached drawing, at the water according to the first preferred embodiment of the utility model
The control device 16 of the flat valve 10 of reason system, which is further set, just to wash control instruction according to a purification device,
The driving element 18 is driven to rotate, to drive the moving valve plate 13 of the flat valve 10 such as transmission gear by the transmission mechanism 14
It rotates relative to the fixed valve plate 12, is connected respectively with the inner cavity 110 of the valve body 11 and the 5th opening 1105 to form one
The tenth logical tee joint channel 10013 and one be open respectively with the 6th of the valve body 11 the 1106 and the flat valve 10 this
The 14th communicating passage 10014 that nine openings 1109 are connected, to allow 1101 stream of the first opening of raw water from the valve body 11
Enter the inner cavity 110 to the valve body 11, then by the 5th opening 1105 of the tenth tee joint channel 10013 inflow, then into
Enter the purification device 20 this first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse
Afterwards, from 202 outflow of the second connection opening of the purification device 20, the 6th opening 1106 for then flowing through the valve body 11 is flowed into
14th communicating passage 10014, then from 1109 outflow of the 9th opening of the flat valve 10, meanwhile, also form one point
The 16th communicating passage 10016 not being connected with second opening 1102 of the valve body 11 and the inner cavity 110, to allow raw water
It is flowed into the inner cavity 110 of the valve body 11 from first opening 1101 of the valve body 11, then passes through the 16th communicating passage
10016 flow into the valve body 11 this second opening 1102, to user provide raw water, also formed one respectively with the valve body 11
1108 the 17th communicating passages 10017 that are connected with the inner cavity 110 of the 8th opening, to allow raw water from the valve body 11
First opening 1101 inner cavity 110 that is flowed into the valve body 11, then being flowed by the 17th communicating passage 10017 should
8th opening 1108 of valve body 11, provides raw water to user;According to a moisturizing control instruction, pass through the transmission mechanism
14, such as transmission gear, the driving element 18 is driven to rotate, to drive the moving valve plate 13 of the flat valve 10 with respect to the fixed valve plate 12
Rotation, to form the 15th connection being connected respectively with the inner cavity 110 of the valve body 11 and the 4th opening 1104
Channel 10015, to allow raw water from the inner cavity 110 that first opening 1101 of the valve body 11 is flowed into the valve body 11, then
The 4th opening 1104 is flowed by the 15th communicating passage 10015, then flows into the entry portal 322 of the ejector 32, to
33 moisturizing of brine tank, meanwhile, also formation one is connected with second opening 1102 of the valve body 11 and the inner cavity 110 respectively
16th communicating passage 10016, with allow raw water from first opening 1101 of the valve body 11 be flowed into the valve body 11 this is interior
Then chamber 110 is flowed into second opening 1102 of the valve body 11 by the 16th communicating passage 10016, provided to user
It is logical also to form the 17th connection that one is connected with the 8th opening 1108 of the valve body 11 and the inner cavity 110 respectively for raw water
Then road 10017 is led to allowing raw water from the inner cavity 110 that first opening 1101 of the valve body 11 is flowed into the valve body 11
The 8th opening 1108 that the 17th communicating passage 10017 flows into the valve body 11 is crossed, provides raw water to user.
It is worth noting that, correspondingly, when the water treatment system according to the first preferred embodiment of the utility model be in this
Two working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016 can be considered
The a part in first raw water supply water route), wherein first raw water supply water route, which is set, allows raw water that can flow through the original
Water is supplied water route and is provided by second opening 1102 of the valve body 11;When according to the first preferred embodiment of the utility model
Water treatment system is in second working condition, the third working condition, the 4th working condition, the 5th working condition, is somebody's turn to do
6th working condition and when seven working conditions, which forms second raw water and supplies water route, wherein this
Two raw waters supply water route, which is set, allows raw water that can flow through raw water supply water route and the 8th opening by the valve body 11
1108 are provided.Preferably, the water treatment system second working condition, the third working condition, the 4th working condition,
Second raw water that 6th working condition and the 7th working condition are formed supplies water route (the 17th communicating passage 10017
Participate in formed, can be considered second raw water supply water route a part) and the water treatment system formed in the 5th working condition
(the tenth eight connectivity channel 10018 participates in being formed, and can be considered second raw water supply water route in second raw water supply water route
A part) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of the control device 16, can also be logical by an electronics
Network is interrogated received from a controlling terminal, or an input interface input is passed through by user.For example, working as the utility model water
Processing system is provided having the input interface for the flat valve 10, when such as Trackpad or control button, user
Above-mentioned control instruction can be sent to the control module of the control device 16 by touch panel or corresponding control button, so that should
The control module of control device 16 controls the motor rotation of the control device 16, to drive the drive by a transmission mechanism 14
Dynamic element 18 rotates.
As shown in Fig. 1 to Fig. 2, Figure 16 A to Figure 16 G of attached drawing, according to the water process of the first preferred embodiment of the utility model
System illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element, wherein should
Purification device 20 includes that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on the shell 21
Interior filter house 23, wherein the filter house 23 can be the ultrafiltration silk, net type filter or stacked mistake for ultra-filtration filters
Filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, such as the figure of attached drawing
Shown in 16A to Figure 16 G, the softening plant 30 of the utility model water treatment system includes a Softening box 31, the wherein softening
Case 31 includes 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, and wherein the cabinet 311 has one
Soften 3110, first lead-through openings 301 of chamber and second lead-through opening 302, wherein the liquid collecting unit 312 includes one
Central tube 3121, the water pliable cell 313 are suitable for being contained within the softening chamber 3110, and wherein the central tube 3121 is suitable for and this
Second lead-through opening 302 is connected, and wherein the central tube 3121 has one high end opening 31211 and a low side opening
31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting unit 312
The low side opening 31212 of central tube 3121 flows into the central tube 3121 and the high end opening 31211 from the central tube 3121 flows out;
Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, with the work of softening performance
Property charcoal or other similar softener materials or combinations thereof.
It is appreciated that in order to strengthen the structural strength of the fixed valve plate 12 of the flat valve 10, the first passage 101, this
Two channels 102, the third channel 103, the fourth lane 104, the Five-channel 105, the 6th channel 106, the 7th channel
107, the 8th channel 108 and the 12nd channel 1012 can be split by a reinforcing entity structure or separate into two
Adjacent slightly smaller channel.For example, as shown in Figure 23 to Figure 26 G of attached drawing, at the water according to the first preferred embodiment of the utility model
8th channel 108 of the fixed valve plate 12 of the flat valve 10 of reason system is spaced by a ribs or reinforcing rib
Two internal diameters slightly smaller channel 1081 and channel 1082, wherein when the flat valve 10 is in first working position, the flat valve
10 the tenth triple channel 1013 is connected with the channel 1081 and the 12nd channel 1012 respectively, to form third company
Circulation passage 1003;When the flat valve 10 is in second working position, the 11st channel 1011 of the flat valve 10 is logical with this
Road 1081 is connected, to form the 5th communicating passage 1005;When the flat valve 10 is in the third working position, the 9th is logical
Road 109 is connected with the channel 1082, to form the 6th communicating passage 1006;When the flat valve 10 is in the 4th work
When position, the 11st channel 1011 is connected with the channel 1082, to form the tenth communicating passage 10010;When the plane
When valve 10 is in five working positions, the 9th channel 109 of the flat valve 10 is connected with the channel 1081, should to be formed
11st communicating passage 10011;When the flat valve 10 is in six working positions, the 11st channel 1011 of the flat valve 10
It is connected with the channel 1081, to form the 14th communicating passage 10014.Correspondingly, when the flat valve 10 is in first
When working position, which is in purification-softening working condition, and raw water is flowed into from first opening 1101 of the valve body 11
The inner cavity 110 of the valve body 11, then by the 9th channel 109 of the moving valve plate 13 flow into the fixed valve plate 12 this is first logical
Then road 101 enters the first connection opening 201 of the purification device 20, warp by the 5th opening 1105 of the valve body 11
After crossing material for water treatment or the mechanism processing of the purification device 20, flowed out from the second connection opening 202 of the purification device 20,
The water purification being then out is divided into two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, it is soft by this
After changing the softening resin treatment in case 31, is flowed out from second lead-through opening 302 of the Softening box 31, then flow through the valve body 11
The 7th opening 1107 enter the fixed valve plate 12 the third channel 103, by the tenth channel 1010 of the moving valve plate 13
Water conservancy diversion enters the Five-channel 105 of the fixed valve plate 12, then supplies by second opening 1102 of the valve body 11 to user
Water after processing, the 6th opening 1106 that another way water purification flows through the valve body 11 enter the channel 1081 of the fixed valve plate 12, warp
1013 water conservancy diversion of the tenth triple channel for crossing the moving valve plate 13 enters the 12nd channel 1012 of the fixed valve plate 12, most afterwards through the valve
8th opening 1108 of body 11 flows out and supplies water purification to user;When the flat valve 10 is in the second working position, at the water
Reason machine is in softening filter core (softening plant) the backwash working condition, and raw water is flowed into from first opening 1101 of the valve body 11
Then the inner cavity 110 of the valve body 11 flows into the four-way of the fixed valve plate 12 by the 9th channel 109 of the moving valve plate 13
Then road 104 enters second lead-through opening 302 of the Softening box 31, to this by the 7th opening 1107 of the valve body 11
After softening resin back flush in Softening box 31, is flowed out from first lead-through opening 301 of the Softening box 31, then flow through this
6th opening 1106 of valve body 11, passes through the channel 1081 of the fixed valve plate 12 and the 11st channel of the moving valve plate 13
1011, then flowed out from the 9th opening 1109 of the flat valve 10;When the flat valve 10 is in third working position, the water process
Machine is in purification device backwash working condition, and raw water is flowed into being somebody's turn to do for the valve body 11 from first opening 1101 of the valve body 11
Then inner cavity 110 is flowed into the channel 1082 of the fixed valve plate 12 by the 9th channel 109 of the moving valve plate 13, then passed through
6th opening 1106 of the valve body 11 enters the second connection opening 202 of the purification device 20, in the purification device 20
Material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening 201 outflow, then flow through this
5th opening 1105 of valve body 11, into the first passage 101 of the fixed valve plate 12, passes through the tenth of the moving valve plate 13
Nineth opening 1109 outflow of one channel 1011 from the flat valve 10;Further, when the flat valve 10 is in the 4th work
When position, which is in the softening filter core reproduction operation state, and raw water is flowed into from first opening 1101 of the valve body 11
To the inner cavity 110 of the valve body 11, the 6th of the fixed valve plate 12 the then is flowed by the 9th channel 109 of the moving valve plate 13
Then channel 106 is flowed into the exit wound of bullet 321 of the ejector 32 by the third opening 1103 of the valve body 11, penetrated by this
32 jet stream of device is flowed, the entry portal 322 through the ejector 32 flows into the valve body 11 after mixing the liquid from the brine tank 33
4th opening 1104, subsequently into the 7th channel 107 of the fixed valve plate 12, using the tenth channel of moving valve plate 13
1010 water conservancy diversion enter the fourth lane 104 of the fixed valve plate 12, and the 7th opening 1107 for then flowing through the valve body 11, which enters, is somebody's turn to do
Second lead-through opening 302 of Softening box 31, in the counter-current regeneration Softening box 31 as after softening resin, opened from first conducting
Mouth 301 flows out, and the 6th opening 1106 for then flowing through the valve body 11 enters the channel 1082 of the fixed valve plate 12, then by being somebody's turn to do
11st channel 1011 of moving valve plate 13, from 1109 outflow of the 9th opening of the flat valve 10;When the flat valve 10 is in
When five working positions, which is in the softening filter core (softening plant) and just washes working condition, and raw water is from the valve body 11
First opening 1101 is flowed into the inner cavity 110 of the valve body 11, is then flowed by the 9th channel 109 of the moving valve plate 13
The channel 1081 of the fixed valve plate 12, then by the valve body 11 the 6th opening 1106 enter the Softening box 31 this first
Lead-through opening 301, after being rinsed to the softening resin forward direction in the Softening box 31, from second lead-through opening of the Softening box 31
302 outflows then flow through the 7th opening 1107 of the valve body 11, pass through the third channel 103 of the fixed valve plate 12 and are somebody's turn to do
11st channel 1011 of moving valve plate 13, then 1109 outflow of the 9th opening from the flat valve 10;Further, when this
When flat valve 10 is in six working positions, which is in the purification device and just washes working condition, and raw water is from the valve body 11
First opening 1101 inner cavity 110 that is flowed into the valve body 11, then flowed by the 9th channel 109 of the moving valve plate 13
Enter the second channel 102 of the fixed valve plate 12, the purification device 20 is then entered by the 5th opening 1105 of the valve body 11
This first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification device
20 202 outflow of the second connection opening, then flows through the 6th opening 1106 of the valve body 11, into the fixed valve plate 12
The channel 1081 passes through the 11st channel 1011 of the moving valve plate 13 from 1109 stream of the 9th opening of the flat valve 10
Out;When the flat valve 10 is in seven working positions, which is in the brine tank moisturizing working condition, and raw water is from the valve
First opening 1101 of body 11 is flowed into the inner cavity 110 of the valve body 11, then passes through the 9th channel of the moving valve plate 13
109 flow into the 7th channel 107 of the fixed valve plate 12, and the 4th opening 1104 for then flowing through the valve body 11 flows into the ejector
32 entry portal 322, to 33 moisturizing of brine tank.
With reference to shown in Figure 27 A to Figure 30 G of attached drawing, according to this of the water treatment system of the first preferred embodiment of the utility model
The optional implementation of one kind of flat valve 10 is elucidated with, and wherein flat valve 10P has a first passage 101, a second channel
102, a third channel 103,104, Five-channel 105P of a fourth lane, 106, one, the 6th channel
Seven the 8th channel of 107, one, channels 108, the 9th channels the 11st channel of 109,1010, one, the tenth channels
1011, a 12nd channel 1012P and the tenth triple channel 1013, wherein the first passage 101, the second channel 102,
The third channel 103, the fourth lane 104, the Five-channel 105P, the 6th channel 106, the 7th channel the 107, the 8th
Channel 108 and the 12nd channel 1012P are respectively arranged on the fixed valve plate 12 and respectively from the first fluid control of the fixed valve plate 12
Face 120 processed extends;9th channel 109, the tenth channel 1010, the 11st channel 1011 and the tenth triple channel 1013P
It is respectively arranged on the moving valve plate 13 and extends respectively from the second fluid control plane 130 of the moving valve plate 13,101 He of first passage
The second channel 102 1105 is connected with the 5th opening respectively, the third channel 103 and the fourth lane 104 respectively with this
7th opening 1107 is connected, which is connected with second opening 1102, the 6th channel 106 and the third
Opening 1103 is connected, and the 7th channel 107 is connected with the 4th opening 1104, the 8th channel 108 and the 6th opening
1106 are connected, and the 12nd channel 1012P is connected with the 8th opening 1108, the 9th channel 109 and the valve body 11
The inner cavity 110 is connected, and the 11st channel 1011 is connected with the 9th opening 1109.
As shown in Figure 27 A to Figure 30 G of attached drawing, when flat valve 10P is in the second working position, flat valve 10P's
The first passage 101, the third channel 103, the Five-channel 105P and the 12nd channel 1012P are respectively by the moving valve plate
13 closings;When flat valve 10P is in third working position, the third channel 103 of flat valve 10P, the fourth lane
104, the Five-channel 105P and the 12nd channel 1012P are closed by the moving valve plate 13 respectively;When flat valve 10P is in the
When four working positions, the first passage 101, the second channel 102, the Five-channel 105P and the 12nd of flat valve 10P
Channel 1012P is closed by the moving valve plate 13 respectively;When flat valve 10P is in five working positions, flat valve 10P this second
Channel 102, the fourth lane 104 and the Five-channel 105P are closed by the moving valve plate 13 respectively;When flat valve 10P is in the
When six working positions, the first passage 101, the third channel 103, the Five-channel 105P and the 12nd of flat valve 10P
Channel 1012P is closed by the moving valve plate 13 respectively;When flat valve 10P is in seven working positions, flat valve 10P this
Five-channel 105P and the 12nd channel 1012P are closed by the moving valve plate 13 respectively.In other words, flat valve 10P is flat with this
Face valve 10 the difference is that, when the flat valve 10P of the water treatment system according to the first preferred embodiment of the utility model is in
Second working position, the third working position, the 4th working position, the 5th working position, the 6th working position and the 7th work
When position, flat valve 10P does not re-form (or can not be formed) the 16th communicating passage 10016;When flat valve 10P is in this
When the second working position, the third working position, the 4th working position, the 6th working position and seven working positions, flat valve 10P
Do not re-form (or can not be formed) the 17th communicating passage 10017.In other words, when flat valve 10P is in second work
When making position, the third working position, the 4th working position, the 6th working position and seven working positions, flat valve 10P does not pass through
Second opening 1102 and the 8th opening 1108 provide pending water (or raw water);When flat valve 10P is in the 5th work
When making position, flat valve 10P does not pass through second opening 1102 and provides pending water (or raw water).
With reference to Figure 31 to Figure 60 G of the utility model attached drawing, according to the water process system of the second preferred embodiment of the utility model
System is illustrated, and it is suitable for carrying out purifying-sofening treatment to raw water or pending water, wherein the water treatment system includes one
Fluid valve 10A, a purification device 20 and a softening plant 30, wherein fluid valve 10A includes a valve body 11A and one
Spool 1A, wherein valve body 11A forms an inner cavity 110A, a first opening 1101A, second opening a 1102A, one
A third opening 1103A, a 4th opening 1104A, a 5th opening 1105A, a 6th opening 1106A, one the
Seven opening 1107A, the 8th 1108A and one a 9th opening 1109A of opening, wherein spool 1A is arranged on the inner cavity
110A.It is appreciated that first opening 1101A, second opening 1102A, third opening 1103A, the 4th opening
1104A, the 5th opening 1105A, the 6th opening 1106A, the 7th opening 1107A, the 8th opening 1108A and the 9th
Opening 1109A is preferably spaced apart valve body 11A in fluid valve 10A.
As shown in Figure 31 to Figure 60 G of attached drawing, wherein according to the water treatment system of the second preferred embodiment of the utility model
With first working condition, second working condition and a third working condition, wherein at the water treatment system
In first working condition, fluid valve 10A formed one respectively with the first opening 1101A of valve body 11A and this
Five opening 1105A be connected the first communicating passage 1001A, one respectively with valve body 11A this second opening 1102A and should
The the second communicating passage 1002A and the 1106A that is open respectively with the 6th of valve body 11A that 7th opening 1107A is connected
The third connecting channel 1003A being connected with the 8th opening 1108A, when the water treatment system is in second working condition
When, fluid valve 10A forms one and is connected respectively with the first opening 1101A of valve body 11A and the 7th opening 1107A
The 4th communicating passage 1004A and one be open the (or the 9th with the 6th of valve body 11A opening 1106A and the 9th respectively
Opening) the 5th communicating passage 1005A that is connected of 1109A, when the water treatment system is in the third working condition, the fluid
Valve 10A forms the 6th company being connected respectively with the first opening 1101A of valve body 11A and the 6th opening 1106A
Circulation passage 1006A and one be open that 1109A is connected with the 5th opening 1105A of valve body 11A and the 9th respectively the
Seven communicating passage 1007A.Preferably, further there is one according to the water treatment system of the second preferred embodiment of the utility model
Four working conditions and the 5th working condition, when the water treatment system is in four working conditions, fluid valve 10A
Form the eight connectivity channel being connected respectively with the first opening 1101A of valve body 11A and third opening 1103A
1008A, the 9th connection that the opening of 1107A and the 4th 1104A is connected that is open respectively with the 7th of valve body 11A the are logical
The road 1009A and 1109A that is open respectively with the 9th of the 6th opening 1106A and fluid valve 10A of valve body 11A the
The tenth communicating passage 10010A being connected, when the water treatment system is in five working conditions, fluid valve 10A is formed
One the 11st communicating passage being connected respectively with the first opening 1101A of valve body 11A and the 6th opening 1106A
10011A and 1109A that is open respectively with the 7th of valve body 11A opening 1107A and the 9th be connected the 12nd
Communicating passage 10012A.It is highly preferred that further there is one according to the water treatment system of the second preferred embodiment of the utility model
6th working condition and the 7th working condition, when the water treatment system is in six working conditions, fluid valve 10A
It is logical to form the tenth tee joint that one is connected with the first opening 1101A of valve body 11A and the 5th opening 1105A respectively
Road 10013A and the 14 to be connected respectively with the 6th opening 1106A of valve body 11A and the 9th opening 1109A
Communicating passage 10014A, when the water treatment system is in seven working conditions, fluid valve 10A formed one respectively with this
The 15th communicating passage 10015A that the first opening 1101A of valve body 11A is connected with the 4th opening 1104A.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, further, when preferable according to the utility model second
The water treatment system of embodiment is in second working condition, the third working condition, the 4th working condition, the 5th work
When state, the 6th working condition and seven working conditions, the moving valve plate 13A and fixed valve plate 12A shape of flat valve 10A
The 16th communicating passage being connected respectively with the first opening 1101A of valve body 11A and second opening 1102A at one
10016A;In second working condition, the third working condition, the 4th working condition, the 6th working condition and the 7th
When working condition, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A formed one respectively with valve body 11A this
The 17th communicating passage 10017A that one opening 1101A is connected with the 8th opening 1108A;With in the 5th working condition
When, the moving valve plate 13A and fixed valve plate 12A of the flat valve 10 formed one respectively with first opening of valve body 11A
The tenth eight connectivity channel 10018A that 1101A is connected with the 8th opening 1108A.
As shown in Figure 31 to Figure 60 G of attached drawing, according to the fluid of the water treatment system of the second preferred embodiment of the utility model
Valve 10A is a flat valve, and wherein flat valve 10A further comprises a moving valve plate 13A and a fixed valve plate 12A, wherein
There is the fixed valve plate 12A first fluid control plane 120A, moving valve plate 13A to have a second fluid control plane 130A,
Wherein moving valve plate 13A and fixed valve plate 12A are arranged on inner cavity 110A, wherein the second fluid of moving valve plate 13A
Control plane 130A is arranged on the first fluid control plane 120A of fixed valve plate 12A, and be set can by moving valve plate 13A
It is rotated relative to fixed valve plate 12A, wherein there is the purification device 20 one first connection opening 201 to be connected to out with one second
Mouth 202, wherein the softening plant 30 includes a Softening box 31, and wherein the Softening box 31 has first lead-through opening 301
With second lead-through opening 302, wherein the inner cavity 110A of valve body 11A is connected with first opening 1101A, the purification
The first connection opening 201 of device 20 is connected with the 5th opening 1105A of valve body 11A, which is somebody's turn to do
First lead-through opening 301 of second connection opening 202 and the Softening box 31 with the 6th of valve body 11A opening 1106A
It is connected, second lead-through opening 302 of the Softening box 31 is connected with the 7th opening 1107A of valve body 11A.Therefore,
When fluid valve 10A is a flat valve, the spool 1A of fluid valve 10A includes moving valve plate 13A and the fixed valve plate
12A.Furthermore, it is to be understood that since the inner cavity 110A of the valve body 11A of flat valve 10A is connected with first opening 1101A
Logical, therefore, pending water is provided by the first opening 1101A and inner cavity 110A.
As shown in Figure 31 to Figure 32 and Figure 46 A to Figure 46 G of attached drawing, at the water according to the second preferred embodiment of the utility model
The softening plant 30 of reason system further comprises an ejector 32 and a brine tank 33, and wherein the ejector 32 has one
It is a be suitable for the third of the valve body 11A opening 1103A exit wound of bullet 321 being connected and one be suitable for valve body 11A should
The entry portal 322 that 4th opening 1104A is connected, wherein the brine tank 33 is suitable for being connected with the ejector 32, to make to come
Can be by the ejector 32 and the 4th opening 1104A from the saline solution of the brine tank 33, and through flat valve 10A to flow to this soft
30 Softening box 31 is set in makeup, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when this is practical new
When type water treatment system is in a softening filter core suction salt reproduction operation state, raw water or pending water being somebody's turn to do from valve body 11A
First opening 1101A is flowed into the inner cavity 110A of valve body 11A, and then being flowed by an eight connectivity channel 1008A should
Third opening 1103A, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from the salt
The entry portal 322 after the liquid of liquid case 33 through the ejector 32 flows into the 4th opening 1104A of valve body 11A, then leads to
It crosses a 9th communicating passage 1009A and flows into the 7th opening 1107A, into second lead-through opening 302 of the Softening box 31,
Material for water treatment or mechanism in the counter-current regeneration Softening box 31 flow out after softening resin from first lead-through opening 301,
A the tenth communicating passage 10010A is flowed into after then flowing through the 6th opening 1106A of valve body 11A, then from the flat valve
One the 9th opening 1109A of 10A flows out.Although being appreciated that the utility model is exemplarily only described through ejector 32
There is provided saline solution mode to Softening box 31, however, saline solution can also otherwise or mechanism by flat valve 10A this
Four opening 1104A are provided to the Softening box 31.Therefore, it is not answered in such a way that ejector 32 provides saline solution to Softening box 31
Limitation as the utility model.
It will be appreciated by those skilled in the art that the flat valve 10A of the utility model water treatment system can further have
One is arranged on the bindiny mechanism of valve body 11A, such as connection screw thread, snap fit connector, in order to flat valve 10A and the water
The other structures component of processing system, such as purification device, softening plant are connected, to guide water flow to flow to purification dress respectively
It sets, each communicating passage that the Softening box of softening plant and flat valve 10A are formed.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to being somebody's turn to do for the second preferred embodiment of the utility model
Water treatment system has first working condition, second working condition and a third working condition, wherein when the water
When processing system is in first working condition, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A forms one point
With valve body 11A this first opening 1101A and the 5th be open 1105A be connected the first communicating passage 1001A, one
A the second communicating passage 1002A being connected respectively with the second opening 1102A of valve body 11A and the 7th opening 1107A
The third connecting channel being connected with the opening of 1106A and the 8th 1108A that is open respectively with the 6th of valve body 11A the
1003A, when the water treatment system is in second working condition, the moving valve plate 13A and the fixed valve plate of flat valve 10A
12A forms the 4th connection being connected respectively with the first opening 1101A of valve body 11A and the 7th opening 1107A
The channel 1004A and 1109A that is open respectively with the 9th of the 6th opening 1106A and flat valve 10A of valve body 11A the
The 5th communicating passage 1005A being connected, when the water treatment system is in the third working condition, flat valve 10A's should
Moving valve plate 13A and fixed valve plate 12A forms one and is open respectively with the first opening 1101A and the 6th of valve body 11A
The 6th communicating passage 1006A and be open respectively with the 5th of valve body 11A the 1105A and the plane that 1106A is connected
The 7th communicating passage 1007A that the 9th opening 1109A of valve 10A is connected.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in first working condition, flat valve 10A formed first communicating passage 1001A respectively with the valve
Body 11A this first opening 1101A and the 5th be open 1105A be connected, second communicating passage 1002A respectively with the valve body
11A this second opening 1102A and the 7th be open 1107A be connected, third connecting channel 1003A respectively with the valve body
The 1108A that is open of the 6th opening 1106A of 11A and the 8th is connected, so that raw water be allowed first to open from this of valve body 11A
Mouth 1101A is flowed into the inner cavity 110A of valve body 11A, first communicating passage then formed by flat valve 10A
1001A, valve body 11A the 5th opening 1105A, the purification device 20 this first connection opening 201 flow into the purification dress
20 are set, the second connection opening of the water purification that raw water obtains after 20 purified treatment of purification device from the purification device 20
202 outflows, then water purification is divided into two-way, wherein first lead-through opening 301 that water purification flows through the Softening box 31 all the way is flowed into and is somebody's turn to do
Softening box 31, and softened water is obtained after softened processing, softened water is flowed out from second lead-through opening 302 of the Softening box 31,
Then second communicating passage 1002A of the 7th opening 1107A through valve body 11A, flat valve 10A, most afterwards through the valve
Second opening 1102A of body 11A flows out and supplies softened water to user, and another way water purification flows through the 6th of valve body 11A
The third connecting channel 1003A of opening 1106A, flat valve 10A, most the 8th opening 1108A through valve body 11A flows afterwards
Supply water purification out and to user.Therefore, when the water treatment system is in first working condition, the utility model water process system
System can provide water purification and softened water to user simultaneously.Correspondingly, first working condition of the water treatment system, which corresponds to, is somebody's turn to do
The purification of water treatment system-softening working condition.Therefore, when the water treatment system is in first working condition, the valve body
First opening 1101A (or the inner cavity 110A of valve body 11A) of 11A, valve body 11A the 5th opening 1105A, this is net
Makeup set 20 this first connection opening 201, the purification device 20 this second connection opening 202, the softening plant 30 should
Second lead-through opening 302, valve of first lead-through opening 301 of Softening box 31, the Softening box 31 of the softening plant 30
Second opening 1102A of the 7th opening 1107A and valve body 11A of body 11A is sequentially communicated, so that forming one should
The water-flowing path that purification device 20 and the softening plant 30 are cascaded is somebody's turn to do so that raw water can be flowed to from the purification device 20
Softening plant 30 and it is cleaned raw water successively and sofening treatment.Meanwhile the 6th opening 1106A, the plane of the valve body 11
The 8th opening 1108A of the third connecting channel 1003A and valve body 11A of valve 10A form a water purification and supply branch (water
Road), to provide water purification to user.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in second working condition, flat valve 10A formed the 4th communicating passage 1004A respectively with the valve
Body 11A this first opening 1101A and the 7th be open 1107A be connected, the 5th communicating passage 1005A respectively with the valve body
The 9th opening 1109A of the 6th opening 1106A and flat valve 10A of 11A are connected, to allow raw water from the valve
First opening 1101A of body 11A is flowed into the inner cavity 110A of valve body 11A, is then somebody's turn to do by what flat valve 10A was formed
4th communicating passage 1004A flows into the 7th opening 1107A, then second lead-through opening 302 through the Softening box 31 is flowed into and is somebody's turn to do
Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softening resin, after back flush, obtain
The sewage or waste water arrived is flowed out from first lead-through opening 301 of the Softening box 31, then flows through the 6th of valve body 11A
Opening 1106A flows into the 5th communicating passage 1005A of flat valve 10A, then from the 9th opening of flat valve 10A
1109A outflow.In other words, when the water treatment system is in second working condition, the utility model water treatment system can
Control carries out back flush to softening filter core, such as Softening box 31.Correspondingly, second working condition of the water treatment system is corresponding
In softening filter core (softening plant) backwash working condition of the water treatment system.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in the third working condition, flat valve 10A formed the 6th communicating passage 1006A respectively with the valve
Body 11A this first opening 1101A and the 6th be open 1106A be connected, the 7th communicating passage 1007A respectively with the valve body
The 9th opening 1109A of the 5th opening 1105A and flat valve 10A of 11A are connected, to allow raw water from the valve
First opening 1101A of body 11A is flowed into the inner cavity 110A of valve body 11A, then passes through the 6th communicating passage 1006A
The 6th opening 1106A is flowed into, the second connection opening 202 of the purification device 20 is entered back into, in the purification device 20
After material for water treatment or mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, this is then flowed through
The 5th opening 1105A of valve body 11A flows into the 7th communicating passage 1007A, then from the 9th opening of flat valve 10A
1109A outflow;Correspondingly, the third working condition of the water treatment system corresponds to the purification device backwash of the water treatment system
Working condition.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to the water of the second preferred embodiment of the utility model
Processing system further has the 4th working condition and the 5th working condition, when the water treatment system is in the 4th
When working condition, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A formed one respectively with valve body 11A this
One opening 1101A and the third opening 1103A be connected eight connectivity channel 1008A, one respectively with valve body 11A this
7th opening 1107A and the 4th be open the 9th communicating passage 1009A that is connected of 1104A and one respectively with valve body 11A
The 6th opening 1106A and flat valve 10A the 9th be open the tenth communicating passage 10010A that is connected of 1109A;When
When the water treatment system is in five working conditions, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A forms one
A the 11st communicating passage being connected respectively with the first opening 1101A of valve body 11A and the 6th opening 1106A
10011A and 1109A phase that is open respectively with the 9th of the 7th opening 1107A and flat valve 10A of valve body 11A the
12nd communicating passage 10012A of connection.
When the water treatment system according to the second preferred embodiment of the utility model is in four working conditions, the flat valve
10A formed eight connectivity channel 1008A respectively with valve body 11A this first opening 1101A and the third opening 1103A
It is connected, the 9th communicating passage 1009A is open with the 7th of valve body 11A opening 1107A and the 4th 1104A phase respectively
Connection, the tenth communicating passage 10010A respectively with the 6th of valve body 11A opening 1106A and flat valve 10A this
Nine opening 1109A are connected, so that raw water be allowed to be flowed into being somebody's turn to do for valve body 11A from first opening 1101A of valve body 11A
Then inner cavity 110A flows into third opening 1103A by eight connectivity channel 1008A, then flows into being somebody's turn to do for the ejector 32
Exit wound of bullet 321 mixes entry portal through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
322 flow into the 4th opening 1104A of valve body 11A, then flow into the 7th opening by the 9th communicating passage 1009A
1107A, into second lead-through opening 302 of the Softening box 31, after the softening resin in the counter-current regeneration Softening box 31, from this
The outflow of first lead-through opening 301, the 6th opening 1106A for then flowing through valve body 11A flow into the tenth communicating passage
10010A, then from the 9th opening 1109A outflow of flat valve 10A.Correspondingly, the 4th work of the water treatment system
State corresponds to softening filter core (softening plant) reproduction operation state of the water treatment system.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in five working conditions, flat valve 10A formed the 11st communicating passage 10011A respectively with
The first opening 1101A of valve body 11A is connected with the 6th opening 1106A, the 12nd communicating passage 10012A difference
It is connected with the 9th opening 1109A of the 7th opening 1107A and flat valve 10A of valve body 11A, to allow original
Water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then connects by the 11st
Circulation passage 10011A flows into the 6th opening 1106A, first lead-through opening 301 of the Softening box 31 is entered back into, to the softening
After material for water treatment or mechanism forward direction in case 31 rinse, flows out from second lead-through opening 302 of the Softening box 31, then flow
The 7th opening 1107A through valve body 11A flows into the 12nd communicating passage 10012A, then being somebody's turn to do from flat valve 10A
9th opening 1109A outflow.In other words, when the water treatment system is in five working conditions, at the utility model water
Reason system is controllable to softening filter core, as Softening box 31 carries out positive flushing.Correspondingly, the 5th work of the water treatment system
The softening filter core (softening plant) that state corresponds to the water treatment system just washes working condition.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to the water of the second preferred embodiment of the utility model
Processing system further has the 6th working condition and the 7th working condition, when the water treatment system is in the 6th
When working condition, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A formed one respectively with valve body 11A this
One opening 1101A and the 5th be open the tenth tee joint channel 10013A that is connected of 1105A and one respectively with valve body 11A
The 6th opening 1106A and flat valve 10A the 9th be open the 14th communicating passage 10014A that is connected of 1109A;
When the water treatment system is in seven working conditions, the moving valve plate 13A and fixed valve plate 12A of flat valve 10A is formed
One the 15th communicating passage being connected respectively with the first opening 1101A of valve body 11A and the 4th opening 1104A
10015A。
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in six working conditions, flat valve 10A formed the tenth tee joint channel 10013A respectively with
The first opening 1101A of valve body 11A is connected with the 5th opening 1105A, the 14th communicating passage 10014A difference
It is connected with the 9th opening 1109A of the 6th opening 1106A and flat valve 10A of valve body 11A, to allow original
Water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then connects by the 13rd
Circulation passage 10013A flows into the 5th opening 1105A, enters back into the first connection opening 201 of the purification device 20, net to this
After material for water treatment or the flushing of mechanism forward direction in 20 are set in makeup, flowed out from the second connection opening 202 of the purification device 20,
The 6th opening 1106A for then flowing through valve body 11A flows into the 14th communicating passage 10014A, then from the flat valve
The 9th opening 1109A outflow of 10A.In other words, when the water treatment system is in six working conditions, this is practical new
Type water treatment system is controllable to carry out positive flushing to purification device 20.Correspondingly, the 6th work shape of the water treatment system
The purification device that state corresponds to the water treatment system just washes working condition.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
When water treatment system is in seven working conditions, flat valve 10A formed the 15th communicating passage 10015A respectively with
The first opening 1101A of valve body 11A is connected with the 4th opening 1104A, to allow raw water being somebody's turn to do from valve body 11A
First opening 1101A is flowed into the inner cavity 110A of valve body 11A, and then being flowed by the 15th communicating passage 10015A should
4th opening 1104A, then the entry portal 322 of the ejector 32 is flowed into, to 33 moisturizing of brine tank.In other words, at the water
When reason system is in seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Correspondingly, should
7th working condition of water treatment system corresponds to the brine tank moisturizing working condition of the water treatment system.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, further, when preferable according to the utility model second
The water treatment system of embodiment is in second working condition, the third working condition, the 4th working condition, the 5th work
When state, the 6th working condition and seven working conditions, the moving valve plate 13A and fixed valve plate 12A shape of flat valve 10A
At the 16th communicating passage 10016A, allow raw water successively from valve body 11A this first opening 1101A be flowed into the valve
Then the inner cavity 110A of body 11A flows into second opening of valve body 11A by the 16th communicating passage 10016A
1102A, thus second working condition, the third working condition, the 4th working condition, the 5th working condition, this
Six working conditions and the 7th working condition provide raw water to user.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, when according to the second preferred embodiment of the utility model
Water treatment system is in second working condition, the third working condition, the 4th working condition, the 6th working condition and is somebody's turn to do
When seven working conditions, the 17th communicating passage of moving valve plate 13A and the fixed valve plate 12A formation of flat valve 10A
10017A allows raw water to be flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then leads to
Cross the 17th communicating passage 10017A flow into valve body 11A the 8th opening 1108A, thus second working condition,
The third working condition, the 4th working condition, the 6th working condition and the 7th working condition provide raw water to user.
Further, when the water treatment system according to the second preferred embodiment of the utility model is in five working conditions, this is flat
The tenth eight connectivity channel 10018A that the moving valve plate 13A and fixed valve plate 12A of face valve 10A is formed allows raw water from the valve body
First opening 1101A of 11A is flowed into the inner cavity 110A of valve body 11A, then passes through the tenth eight connectivity channel
10018A flows into the 8th opening 1108A of valve body 11A, to provide raw water to user in the 5th working condition.
Correspondingly, as shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, preferably implement according to the utility model second
The fluid valve (or flat valve) 10A of the water treatment system of example has first working position, second working position, one the
Three working positions, the 4th working position, the 5th working position, the 6th working position and the 7th working position, wherein when
When fluid valve (or the flat valve) 10A is in first working position, the spool 1A of fluid valve 10A forms first connection
Channel 1001A, the second communicating passage 1002A and third connecting channel 1003A, at fluid valve (or the flat valve) 10A
In second working position, the spool 1A of fluid valve 10A, which forms the 4th communicating passage 1004A and is connected to the 5th, to be led to
Road 1005A, when fluid valve (or the flat valve) 10A is in the third working position, the spool 1A of fluid valve 10A is formed should
6th communicating passage 1006A and the 7th communicating passage 1007A;Preferably, when fluid valve (or the flat valve) 10A be in this
When four working positions, the spool 1A of fluid valve 10A formed eight connectivity channel 1008A, the 9th communicating passage 1009A and
Tenth communicating passage 10010A;When fluid valve (or the flat valve) 10A is in five working positions, fluid valve 10A's
Spool 1A forms the 11st communicating passage 10011A and the 12nd communicating passage 10012A;It is highly preferred that working as the fluid
When valve (or flat valve) 10A is in six working positions, the spool 1A of fluid valve 10A forms the tenth tee joint channel
10013A and the 14th communicating passage 10014A;When fluid valve (or the flat valve) 10A is in seven working positions, the stream
The spool 1A of body valve 10A forms the 15th communicating passage 10015A.Further, when preferably real according to the utility model second
Fluid valve (or the flat valve) 10A for applying the water treatment system of example is in second working position, the third working position, the 4th work
When making position, the 5th working position, the 6th working position and seven working positions, the spool 1A of fluid valve 10A formed this
16 communicating passage 10016A.Further, when the stream of the water treatment system according to the second preferred embodiment of the utility model
Body valve (or flat valve) 10A is in second working position, the third working position, the 4th working position, the 6th working position and is somebody's turn to do
When seven working positions, the spool 1A of fluid valve 10A forms the 17th communicating passage 10017A, when according to the utility model
When fluid valve (or the flat valve) 10A of the water treatment system of two preferred embodiments is in five working positions, fluid valve 10A
Spool 1A form the tenth eight connectivity channel 10018A.
As shown in Figure 45 A to Figure 45 F and Figure 47 A to Figure 48 G of attached drawing, according to the water of the second preferred embodiment of the utility model
The flat valve 10A of processing system has first passage a 101A, second channel 102A, a third channel 103A,
One fourth lane 104A, a Five-channel 105A, a 6th channel 106A, a 7th channel 107A, one the 8th
Channel 108A, a 9th channel 109A, a tenth channel 1010A, a 11st channel 1011A, the tenth two-way
Road 1012A, a tenth triple channel 1013A and a tenth four-way 1014A, wherein first passage 101A, this is second logical
Road 102A, third channel 103A, fourth lane 104A, the Five-channel 105A, the 6th channel 106A, the 7th channel
107A, the 8th channel 108A, the 12nd channel 1012A and the tenth four-way 1014A are respectively arranged on fixed valve plate 12A simultaneously
Extend respectively from the first fluid control plane 120A of fixed valve plate 12A;9th channel 109A, the tenth channel 1010A,
11st channel 1011A and the tenth triple channel 1013A are respectively arranged on moving valve plate 13A and respectively from moving valve plate 13A's
The second fluid control plane 130A extends, and wherein first passage 101A and second channel 102A is open with the 5th respectively
1105A is connected, and third channel 103A and fourth lane 104A are connected with the 7th opening 1107A respectively, and the 5th
Channel 105A is connected with second opening 1102A, and the 6th channel 106A is connected with third opening 1103A, and the 7th
Channel 107A is connected with the 4th opening 1104A, and the 8th channel 108A is connected with the 6th opening 1106A, and the tenth
Two channel 1012A are connected with the 8th opening 1108A, and the 9th channel 109A is connected with first opening 1101 (to be passed through
The inner cavity 110A of valve body 11A), the 11st channel 1011A is connected with the tenth four-way 1014A, the tenth four-way
Road 1014A is connected with the 9th opening 1109A.It is appreciated that second connection of the utility model purification device 20 is opened
The connection of the 6th opening 1106A of first lead-through opening 301 and valve body 11A of mouth 202 and the Softening box 31 can pass through
Various ways are realized.As shown in Figure 36 A of attached drawing, the 6th opening 1106A of valve body 11A can be net with this respectively by one
Makeup set 20 this second connection opening 202 be connected with first lead-through opening 301 of the Softening box 31 connecting pipeline (or
Triplate line) realize the second connection opening 202 of the purification device 20, first lead-through opening, 301 and of the Softening box 31
Connection between the 6th opening 1106A of valve body 11A.Optionally, the second connection 202 Hes of opening of the purification device 20
The connection of first lead-through opening 301 of the Softening box 31 and the 6th opening 1106A of valve body 11A can also be by being set
Set valve body 11A communication paths realization, wherein the communication paths can be set respectively with the purification device 20 this second
Connection opening 202 and valve body 11A the 6th opening 1106A be connected, and respectively with the Softening box 31 this first be connected
Opening 301 is connected with the 6th opening 1106A of valve body 11A.Therefore, the 8th channel 108A of valve body 11A, this is net
Makeup set 20 the second connection opening 202 and the Softening box 31 first lead-through opening 301 by valve body 11A this
Six opening 1106A form a three-port structure.In addition, in order to ensure the water in the inner cavity 110A of valve body 11A enter this
Nine channel 109A, the 9th channel 109A, which are set, to be protected by a water inlet 1091A being connected always with exterior space
It holds and is connected always with the inner cavity 110A of valve body 11A.
It is worth noting that, the first passage 101A and second channel 102A of flat valve 10A are respectively with the 5th
The connection of opening 1105A can be and respectively and by oneself be connected with the 5th opening 1105A, can also pass through one and flow
Body channel is connected;The third channel 103A and fourth lane 104A of flat valve 10A respectively with the 7th opening 1107A
Connection, can be and be connected respectively and by oneself with the 7th opening 1107A, can also be connected by a fluid channel
It is logical.For example, the first passage 101A and second channel 102A of flat valve 10A is logical as shown in Figure 31 to Figure 44 of attached drawing
It crosses a first fluid channel 1211A to be connected, second channel 102A, which is set, to be directly connected with the 5th opening 1105A
It is logical, to make first passage 101A by the first fluid channel 1211A and second channel 102A, also opened with the 5th
Mouth 1105A is connected;The third channel 103A and fourth lane 104A of flat valve 10A is separately opened with the 7th
Mouth 1107A is connected.Optionally, as shown in Figure 49 of attached drawing and Figure 50, first passage 101A is set directly with the 5th
Opening 1105A is connected, second channel 102A by the first fluid channel 1211A and first passage 101A, also with this
5th opening 1105A is connected.Or optionally, the first passage 101A of flat valve 10A and second channel 102A can
Respectively and by oneself it is connected with the 5th opening 1105A;Or optionally, as shown in Figure 51 of attached drawing, flat valve 10A
Third channel 103A be connected with fourth lane 104A by a second fluid channel 1212A, the third channel
103A, which is set, to be directly connected with the 7th opening 1107A, so that fourth lane 104A be made to pass through the second fluid channel
1212A and third channel 103A is also connected with the 7th opening 1107A;Or optionally, as shown in Figure 52 of attached drawing,
The third channel 103A and fourth lane 104A of flat valve 10A is connected by a second fluid channel 1212A,
Fourth lane 104A, which is set, to be directly connected with the 7th opening 1107A, thus make third channel 103A by this
Two fluid channel 1212A and fourth lane 104A are also connected with the 7th opening 1107A.It is appreciated that further,
The first fluid channel 1211A and second fluid channel 1212A may be disposed at the first fluid control of fixed valve plate 12A
Face 120A also may be disposed at the inside of valve body 11A or fixed valve plate 12A.It is appreciated that flat valve 10A this first
Channel 101A and second channel 102A is logical with the third of the connection of the 5th opening 1105A and flat valve 10A respectively
The road 103A and fourth lane 104A connection with the 7th opening 1107A respectively, is also possible to connection otherwise.
As shown in Figure 47 A to Figure 48 G of attached drawing, according to the water treatment system of the second preferred embodiment of the utility model this be flat
The moving valve plate 13A of face valve 10A can be rotated relative to fixed valve plate 12A so that flat valve 10A has one first work
Position, second working position, a third working position, wherein when flat valve 10A is in first working position, the flat valve
The 9th channel 109A of 10A is connected with first passage 101A, the tenth channel 1010A respectively with third channel 103A
Be connected with the Five-channel 105A, the tenth triple channel 1013A respectively with the 8th channel 108A and the 12nd channel
1012A is connected;When flat valve 10A is in second working position, the 9th channel 109A of flat valve 10A and this
Four-way 104A is connected, and the 11st channel 1011A is connected with the 8th channel 108A and the tenth four-way 1014A respectively
It is logical;When flat valve 10A is in the third working position, the 8th channel 108A of flat valve 10A and the 9th channel
109A is connected, the 11st channel 1011A of flat valve 10A respectively with first passage 101A and the tenth four-way
1014A is connected.
As shown in Figure 47 A to Figure 48 G of attached drawing, according to the water treatment system of the second preferred embodiment of the utility model this be flat
Face valve 10A further has the 4th working position and the 5th working position, when flat valve 10A is in the 4th working position
When, the 9th channel 109A of flat valve 10A is connected with the 6th channel 106A, the tenth channel 1010A respectively with this
Fourth lane 104A is connected with the 7th channel 107A, the 11st channel 1011A respectively with the 8th channel 108A and should
Tenth four-way 1014A is connected;When flat valve 10A is in five working positions, the 9th channel of flat valve 10A
109A is connected with the 8th channel 108A, the 11st channel 1011A of flat valve 10A respectively with third channel 103A
Be connected with the tenth four-way 1014A, the tenth channel 1010A of flat valve 10A respectively with the 8th channel 108A and
12nd channel 1012A is connected.
As shown in Figure 47 A to Figure 48 G of attached drawing, according to the water treatment system of the second preferred embodiment of the utility model this be flat
Face valve 10A further has the 6th working position and the 7th working position, when flat valve 10A is in the 6th work
When position, the 9th channel 109A of flat valve 10A is connected with second channel 102A, and the 11st of flat valve 10A the
Channel 1011A is connected with the 8th channel 108A and the tenth four-way 1014A respectively;When flat valve 10A be in this
When seven working positions, the 9th channel 109A of flat valve 10A is connected with the 7th channel 107A.
It is appreciated that when flat valve 10A is in first working position, according to the second preferred embodiment of the utility model
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109A and the first passage of flat valve 10A
101A is connected, thus formed first communicating passage 1001A, the tenth channel 1010A respectively with third channel 103A and
The Five-channel 105A is connected, to form second communicating passage 1002A, the tenth triple channel 1013A respectively with this
Eight channel 108A are connected with the 12nd channel 1012A, to form third connecting channel 1003A;When the flat valve
When 10A is in second working position, is controlled according to the water treatment system of the second preferred embodiment of the utility model and be in the softening
Filter core (softening plant) backwash working position, the 9th channel 109A of flat valve 10A are connected with fourth lane 104A,
To form the 4th communicating passage 1004A, the 11st channel 1011A respectively with the 8th channel 108A and the 14th
Channel 1014A is connected, to form the 5th communicating passage 1005A;When flat valve 10A is in the third working position,
It is controlled according to the water treatment system of the second preferred embodiment of the utility model and is in the purification device backwash working position, the flat valve
The 8th channel 108A of 10A is connected with the 9th channel 109A, so that the 6th communicating passage 1006A is formed, the tenth
One channel 1011A is connected with first passage 101A and the tenth four-way 1014A respectively, so that it is logical to form the 7th connection
Road 1007A.Further, when flat valve 10A is in four working positions, according to the second preferred embodiment of the utility model
Water treatment system, which is controlled, is in the softening filter core reproduction operation position, the 9th channel 109A and the 6th of flat valve 10A
Channel 106A is connected, to form eight connectivity channel 1008A, the tenth channel 1010A respectively with the fourth lane
104A is connected with the 7th channel 107A, so that the 9th communicating passage 1009A is formed, the 11st channel 1011A difference
It is connected with the 8th channel 108A and the tenth four-way 1014A, to form the tenth communicating passage 10010A;When this is flat
When face valve 10A is in five working positions, is controlled according to the water treatment system of the second preferred embodiment of the utility model and be in this
Working position is just washed in softening filter core (softening plant), and the 9th channel 109A of flat valve 10A is connected with the 8th channel 108A
It is logical, to form the 11st communicating passage 10011A, the 11st channel 1011A of flat valve 10A respectively with the third
Channel 103A is connected with the tenth four-way 1014A, to form the 12nd communicating passage 10012A.Further,
When flat valve 10A is in six working positions, according to the water treatment system of the second preferred embodiment of the utility model by control
When the purification device just washes working position, the 9th channel 109A of flat valve 10A is connected with second channel 102A,
To form the tenth tee joint channel 10013A, the 11st channel 1011A of flat valve 10A respectively with the 8th channel
108A is connected with the tenth four-way 1014A, to form the 14th communicating passage 10014A;At flat valve 10A
When seven working positions, is controlled according to the water treatment system of the second preferred embodiment of the utility model and be in the brine tank moisturizing
9th channel 109A of working position, flat valve 10A is connected with the 7th channel 107A, to form the 15th connection
Channel 10015A.Preferably, the 11st channel 1011A can be the second fluid for being arranged on moving valve plate 13A
The conducting blind hole or conductance slot of control plane 130A, to be connected to the different channels of fixed valve plate 12A in corresponding working position, for example,
In the second working position connection (or conducting) the 8th channel 108A and the tenth four-way 1014A.It is appreciated that working as the flat valve
When 10A is in first working position, the tenth channel 1010A of flat valve 10A respectively with third channel 103A and this
Five-channel 105A is connected, and the moving valve plate 13A of flat valve 10A by the Five-channel 105A and valve body 11A this is interior
Chamber 110A is spaced, and the raw water in the 110A of the inner cavity to prevent valve body 11A enters the Five-channel 105A, the flat valve
The tenth triple channel 1013A of 10A is connected with the 8th channel 108A and the 12nd channel 1012A respectively, and the plane
The inner cavity 110A of 12nd channel 1012A and valve body 11A is spaced by the moving valve plate 13A of valve 10A, to prevent this
Raw water in the inner cavity 110A of valve body 11A enters the 12nd channel 1012A.
As shown in Figure 38 A to Figure 48 G of attached drawing, further, at the water according to the second preferred embodiment of the utility model
The flat valve 10A of reason system is in second working position, the third working position, the 4th working position, the 5th working position, is somebody's turn to do
When the 6th working position and seven working positions, first opening of the Five-channel 105A and valve body 11A of flat valve 10A
1101 are connected (by the inner cavity 110A of valve body 11A), to form the 16th communicating passage 10016A.Correspondingly,
When the water treatment system according to the second preferred embodiment of the utility model is in second working position, the third working position, the 4th
When working position, the 5th working position, the 6th working position and seven working positions, raw water be allowed to from valve body 11A this
One opening 1101A flows into the inner cavity 110A of valve body 11A, and further fixed by this from the inner cavity 110A of valve body 11A
The Five-channel 105A of valve block 12A flows to second opening 1102A of valve body 11A.
As shown in Figure 38 A to Figure 48 G of attached drawing, further, at the water according to the second preferred embodiment of the utility model
The flat valve 10 of reason system is in second working position, the third working position, the 4th working position, the 6th working position and is somebody's turn to do
When seven working positions, first opening 1101 of the 12nd channel 1012A and valve body 11A of flat valve 10A are connected
(passing through the inner cavity 110A of valve body 11A), to form the 17th communicating passage 10017A.Correspondingly, when practical according to this
The water treatment system of novel second preferred embodiment be in second working position, the third working position, the 4th working position, this
When six working positions and seven working positions, raw water is allowed to flow into valve body 11A from first opening 1101A of valve body 11A
Inner cavity 110A, and further pass through the 12nd channel of fixed valve plate 12A from the inner cavity 110A of valve body 11A
1012A flows to the 8th opening 1108A of valve body 11A.Further, when according to the second preferred embodiment of the utility model
When water treatment system is in five working positions, the 9th channel 109A of flat valve 10A is connected with the 8th channel 108A
Logical, the tenth channel 1010A is connected with first passage 101A, the 8th channel 108A and the 12nd channel 1012A respectively
It is logical, so that the 9th channel 109A is connected with the 12nd channel 1012A, to form the tenth eight connectivity channel
10018A.Correspondingly, when the water treatment system according to the second preferred embodiment of the utility model is in five working positions, raw water
It is allowed to be flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then passes through the dynamic valve
The 9th channel 109A of piece 13A flows into the 8th channel 108A of fixed valve plate 12A, by the tenth of the moving valve plate 13A the
Channel 1010A water conservancy diversion enters the 12nd channel 1012A of fixed valve plate 12A, then flows to the 8th opening of valve body 11A
1108A。
As shown in Figure 38 A to Figure 48 G of attached drawing, correspondingly, when flat valve 10A is in the first working position, at the water
Reason machine is in purification-softening working condition, and raw water is flowed into being somebody's turn to do for valve body 11A from first opening 1101A of valve body 11A
Then inner cavity 110A flows into the first passage 101A of fixed valve plate 12A by the 9th channel 109A of moving valve plate 13A,
Then the first connection opening 201 for entering the purification device 20 by the 5th opening 1105A of valve body 11A, by this
After material for water treatment or the mechanism processing of purification device 20, water purification is flowed out from the second connection opening 202 of the purification device 20,
Then water purification is divided into two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, by the Softening box 31
It after interior softening resin treatment, is flowed out from second lead-through opening 302 of the Softening box 31, then flows through being somebody's turn to do for valve body 11A
7th opening 1107A enters the third channel 103A of fixed valve plate 12A, by the tenth channel 1010A of moving valve plate 13A
Water conservancy diversion enters the Five-channel 105A of fixed valve plate 12A, then by second opening 1102A of valve body 11A to user
Water after supply sofening treatment, another way water purification flow through the 6th opening 1106A being somebody's turn to do into fixed valve plate 12A of valve body 11A
8th channel 108A enters the 12nd of fixed valve plate 12A by the tenth triple channel 1013A water conservancy diversion of moving valve plate 13A
Channel 1012A, most the 8th opening 1108A through valve body 11A flows out and supplies water purification to user afterwards;As flat valve 10A
When in the second working position, which is in softening filter core (softening plant) the backwash working condition, and raw water is from the valve body
First opening 1101A of 11A is flowed into the inner cavity 110A of valve body 11A, then logical by the 9th of moving valve plate 13A the
Road 109A flows into the fourth lane 104A of fixed valve plate 12A, is then entered by the 7th opening 1107A of valve body 11A
Second lead-through opening 302 of the Softening box 31, after the softening resin back flush in the Softening box 31, from the Softening box
31 first lead-through opening 301 outflow then flows through the 6th opening 1106A of valve body 11A, passes through the fixed valve plate
The tenth four-way of the 11st channel 1011A and fixed valve plate 12A of the 8th channel 108A and moving valve plate 13A of 12A
Road 1014A, then the 9th opening 1109A outflow from flat valve 10A;It, should when flat valve 10A is in third working position
Water treatment machine is in purification device backwash working condition, and raw water is flowed into the valve body from first opening 1101A of valve body 11A
The inner cavity 110A of 11A, then flow into fixed valve plate 12A by the 9th channel 109A of moving valve plate 13A the 8th are led to
Then road 108A enters the second connection opening 202 of the purification device 20 by the 6th opening 1106A of valve body 11A,
To in the purification device 20 material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening
201 outflows then flow through the 5th opening 1105A of valve body 11A, into the first passage 101A of fixed valve plate 12A,
The tenth four-way 1014A for passing through the 11st channel 1011A and fixed valve plate 12A of moving valve plate 13A is flat from this
The 9th opening 1109A outflow of face valve 10A.Further, when flat valve 10A is in four working positions, the water process
Machine is in the softening filter core reproduction operation state, and raw water is flowed into valve body 11A from first opening 1101A of valve body 11A
Inner cavity 110A, the 6th channel of fixed valve plate 12A is then flowed by the 9th channel 109A of moving valve plate 13A
Then 106A flows into the exit wound of bullet 321 of the ejector 32, by the jet stream by the third opening 1103A of valve body 11A
32 jet stream of device, the entry portal 322 through the ejector 32 flows into being somebody's turn to do for valve body 11A after mixing the liquid from the brine tank 33
4th opening 1104A, subsequently into the 7th channel 107A of fixed valve plate 12A, using the tenth channel of moving valve plate 13A
1010A water conservancy diversion enters the fourth lane 104A of fixed valve plate 12A, then flows through the 7th opening 1107A of valve body 11A
Into second lead-through opening 302 of the Softening box 31, in the counter-current regeneration Softening box 31 as after softening resin, from this first
Lead-through opening 301 flows out, and the 6th opening 1106A for then flowing through valve body 11A leads into the 8th of fixed valve plate 12A
Road 108A, then the tenth four-way 1014A of the 11st channel 1011A and fixed valve plate 12A by moving valve plate 13A,
From the 9th opening 1109A outflow of flat valve 10A;When flat valve 10A is in five working positions, at the water treatment machine
Working condition is just washed in the softening filter core (softening plant), raw water is flowed into this from first opening 1101A of valve body 11A
The inner cavity 110A of valve body 11A, then by the 9th channel 109A of moving valve plate 13A flow into fixed valve plate 12A this
Then eight channel 108A enter first lead-through opening of the Softening box 31 by the 6th opening 1106A of valve body 11A
301, after being rinsed to the softening resin forward direction in the Softening box 31, flowed out from second lead-through opening 302 of the Softening box 31, so
The 7th opening 1107A for flowing through valve body 11A afterwards, passes through the third channel 103A and the moving valve plate of fixed valve plate 12A
The tenth four-way 1014A of the 11st channel 1011A and fixed valve plate 12A of 13A, then from flat valve 10A this
Nine opening 1109A outflows.Further, when flat valve 10A is in six working positions, which is in the purification
Device just washes working condition, and raw water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A,
Then the second channel 102A of fixed valve plate 12A is flowed by the 9th channel 109A of moving valve plate 13A, then by being somebody's turn to do
The 5th opening 1105A of valve body 11A enters the first connection opening 201 of the purification device 20, in the purification device 20
Material for water treatment or mechanism forward direction rinse after, from the purification device 20 this second connection opening 202 outflow, then flow through this
The 6th opening 1106A of valve body 11A passes through moving valve plate 13A's into the 8th channel 108A of fixed valve plate 12A
The tenth four-way 1014A of 11st channel 1011A and fixed valve plate 12A, from the 9th opening of flat valve 10A
1109A outflow;When flat valve 10A is in seven working positions, which is in the brine tank moisturizing working condition, former
Water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then passes through the moving valve plate
The 9th channel 109A of 13A flows into the 7th channel 107A of fixed valve plate 12A, then flows through the 4th of the valve body 11A
Opening 1104A flows into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.Therefore, in each working position, according to this reality
With the inner cavity 110A of the flat valve 10A of the water treatment system of novel second preferred embodiment respectively with first opening
1101A is connected with the 9th channel 109A, so that first opening 1101A of flat valve 10A can be interior by this
Chamber 110A is connected with the 9th channel 109A, and realizes pending water in the different traffic organisings of each working position.In addition, according to
The 9th opening 1109A of the flat valve 10A of the water treatment system of the second preferred embodiment of the utility model is opened as blowdown
Mouthful, it is directly or indirectly connected to the 11st channel 1011A of flat valve 10A, may be formed at the valve body of flat valve 10A
11A also may be formed at a drain outlet.
As shown in Figure 47 A to Figure 48 G of attached drawing, it is preferable that when flat valve 10A is in the first working position, the plane
The second channel 102A and fourth lane 104A of valve 10A is closed by moving valve plate 13A respectively;When flat valve 10A is in
When the second working position, the first passage 101A and third channel 103A of flat valve 10A is sealed by moving valve plate 13A respectively
It closes;When flat valve 10A is in third working position, the third channel 103A and fourth lane 104A of flat valve 10A
It is closed respectively by moving valve plate 13A;When flat valve 10A is in four working positions, the first passage of flat valve 10A
101A and second channel 102A is closed by moving valve plate 13A respectively;When flat valve 10A is in five working positions, the plane
The second channel 102A and fourth lane 104A of valve 10A is closed by moving valve plate 13A respectively;When flat valve 10A is in
When six working positions, the first passage 101A and third channel 103A of flat valve 10A is sealed by moving valve plate 13A respectively
It closes.
As shown in Figure 47 A to Figure 48 G of attached drawing, it is highly preferred that this is flat when flat valve 10A is in the first working position
The 6th channel 106A and the 7th channel 107A of face valve 10A by moving valve plate 13A close, the 11st channel 1011A with
Tenth four-way 1014A is connected;When flat valve 10A is in the second working position, the 6th of flat valve 10A is logical
Road 106A is closed by moving valve plate 13A, and the tenth triple channel 1013A is connected with the 7th channel 107A, flat valve 10A
The tenth channel 1010A be connected respectively with second channel 102A and the 8th channel 108A;When flat valve 10A is in
When third working position, the tenth channel 1010A of flat valve 10A is connected with the 8th channel 108A, flat valve 10A's
6th channel 106A and the 7th channel 107A is closed by moving valve plate 13A respectively, the tenth triple channel of flat valve 10A
1013A is connected with second channel 102A;When flat valve 10A is in four working positions, flat valve 10A this
Ten triple channel 1013A are connected with third channel 103A;When flat valve 10A is in five working positions, flat valve 10A
The 6th channel 106A and the 7th channel 107A respectively by moving valve plate 13A close, the 13rd of flat valve 10A the
Channel 1013A is connected with the 8th channel 108A;When flat valve 10A is in six working positions, flat valve 10A's should
6th channel 106A and the 7th channel 107A is closed by moving valve plate 13A respectively, the tenth channel of flat valve 10A
1010A is connected with the 8th channel 108A, the tenth triple channel 1013A and the fourth lane 104A phase of flat valve 10A
Connection;When flat valve 10A is in seven working positions, the first passage 101A and the third channel of flat valve 10A
103A respectively by moving valve plate 13A close, the tenth channel 1010A of flat valve 10A respectively with second channel 102A and
Fourth lane 104A is connected, and the 11st channel 1011A is connected with the tenth four-way 1014A, flat valve 10A's
Tenth triple channel 1013A is connected with the 6th channel 106A.
It is worth noting that the first passage 101A of flat valve 10A, second channel 102A, the third channel
103A, fourth lane 104A, the Five-channel 105A, the 6th channel 106A, the 7th channel 107A, the 8th channel
108A, the 12nd channel 1012A and the tenth four-way 1014A be spaced respectively set on fixed valve plate 12A this is first-class
Body control plane 120A;9th channel 109A, the tenth channel 1010A, the 11st channel 1011A and the tenth triple channel
1013A is set to the second fluid control plane 130A of moving valve plate 13A with being spaced respectively.In other words, flat valve 10A
First passage 101A, it second channel 102A, third channel 103A, fourth lane 104A, the Five-channel 105A, is somebody's turn to do
6th channel 106A, the 7th channel 107A, the 8th channel 108A, the 12nd channel 1012A and the tenth four-way
1014A is respectively formed the access portal for being arranged on the first fluid control plane 120A of fixed valve plate 12A, and the 9th is logical
Road 109A, the tenth channel 1010A, the 11st channel 1011A and the tenth triple channel 1013A are respectively formed one and are set
In the access portal of the second fluid control plane 130A of moving valve plate 13A, when the moving valve plate 13A quilt cover of flat valve 10A
Opposite (second fluid control plane 130A) (first fluid control plane 120A) setting, and moving valve plate 13A determines valve with respect to this
When piece 12A is rotated, it is arranged on the channel of moving valve plate 13A and is arranged on the channel of fixed valve plate 12A by leading to accordingly
Road opening be selectively connectable it is logical, thus formed corresponding communicating passage and control fluid (such as water flow) flow direction.
It is appreciated that the first passage 101A of flat valve 10A, second channel 102A, third channel 103A, is somebody's turn to do
Fourth lane 104A, the Five-channel 105A, the 6th channel 106A, the 7th channel 107A, the 8th channel 108A, this
Nine channel 109A, the tenth channel 1010A, the 11st channel 1011A, the 12nd channel 1012A, the tenth triple channel
1013A and the tenth four-way 1014A can have any extension path (or side that can be realized interconnected relationship herein
To);First passage 101A, second channel 102A, the third channel 103A, the fourth lane of flat valve 10A
104A, the Five-channel 105A, the 6th channel 106A, the 7th channel 107A, the 8th channel 108A, the 12nd channel
It opens in the channel for the first fluid control plane 120A that 1012A and the tenth four-way 1014A are respectively formed at fixed valve plate 12A
Mouth and the 9th channel 109A, the tenth channel 1010A, the 11st channel 1011A and the tenth triple channel 1013A difference
It is formed in the access portal of the second fluid control plane 130A of moving valve plate 13A, can have any can be realized phase herein
The shape of intercommunicated relationship.For example, the 8th channel 108A is formed in the first fluid control plane 120A's of fixed valve plate 12A
Access portal can be provided having a regular shape, can also be arranged to have an irregular shape.Therefore, the flat valve
First passage 101A, second channel 102A, third channel 103A, the fourth lane 104A, the Five-channel of 10A
105A, the 6th channel 106A, the 7th channel 107A, the 8th channel 108A, the 9th channel 109A, the tenth channel
1010A, the 11st channel 1011A, the 12nd channel 1012A, the tenth triple channel 1013A and the tenth four-way
The extension path (or direction) of 1014A and the shape of its access portal should not become limitations of the present invention.
As shown in Figure 38 A to Figure 48 G of attached drawing, it is preferable that channel herein is closed, and refers to that respective channel is formed
In the second fluid control plane of the first fluid control plane 120A and moving valve plate 13A of the fixed valve plate 12A of flat valve 10A
The access portal of 130A is in the specific works position (or working condition of water treatment system) of flat valve 10A, by moving valve plate 13A
It covers with the entity part of fixed valve plate 12A, can not be connected by access portal so as to cause between respective channel.For example,
When flat valve 10A is in the first working position, the 6th of the entity part face of moving valve plate 13A flat valve 10A is logical
Road 106A and the 7th channel 107A is formed in the access portal of the first fluid control plane 120A of fixed valve plate 12A, to make
The 6th channel 106A and the 7th channel 107A of flat valve 10A closes (or obstruction) by moving valve plate 13A.Correspondingly,
It is arranged on being connected between the channel of moving valve plate 13A and the channel for being arranged on fixed valve plate 12A herein, refers to
The specific works position (or working condition of water treatment system) of flat valve 10A, the channel for being arranged on moving valve plate 13A is formed
It is formed in the access portal of the second fluid control plane 130A of moving valve plate 13A with the channel for being arranged on fixed valve plate 12A
The access portal of the first fluid control plane 120A of fixed valve plate 12A, which selectively partially or is just aligned and is formed, allows water flow
By water-flowing path.For example, when flat valve 10A is in the first working position, the 9th channel 109A of flat valve 10A
It aligns with first passage 101A, to both make be connected and formed first communicating passage 1001A, the tenth channel
1010A aligns with third channel 103A and the Five-channel 105A respectively, thus both make to be connected and be formed this second
Communicating passage 1002A, the tenth triple channel 1013A align with the 8th channel 108A and the 12nd channel 1012A respectively,
To both make to be connected and form third connecting channel 1003A.
As shown in Figure 45 A to Figure 45 F and Figure 47 A to Figure 47 D of attached drawing, according to the water of the second preferred embodiment of the utility model
First passage 101A, the 8th channel 108A, the second channel 102A, the four-way of the flat valve 10A of processing system
Road 104A, the 7th channel 107A, the 6th channel 106A, third channel 103A and the Five-channel 105A are sequentially suitable with this
Hour hands it is arranged in fixed valve plate 12A;The 11st channel 1011A, the tenth channel 1010A, the 9th of flat valve 10A
Channel 109A and the tenth triple channel 1013A is deasil arranged in moving valve plate 13A with this sequence.Optionally, the flat valve
First passage 101A, the 8th channel 108A, second channel 102A, the fourth lane 104A, the 7th channel of 10A
107A, the 6th channel 106A, third channel 103A and the Five-channel 105A, which are widdershins arranged in this with this sequence, to be determined
Valve block 12A;The 11st channel 1011A of flat valve 10A, the tenth channel 1010A, the 9th channel 109A and this
Ten triple channel 1013A are widdershins arranged in moving valve plate 13A with this sequence.
As shown in Figure 45 A to Figure 45 F and Figure 47 A to Figure 47 D of attached drawing, according to the water of the second preferred embodiment of the utility model
The fixed valve plate 12A of the flat valve 10A of processing system has that a first central part 121A, one from first central part
The outwardly extending first extension 122A of 121A and one from the first extension outwardly extending first edge portion 123A of 122A,
Moving valve plate 13A has that a second central part 131A, one from outwardly extending second extension of second central part 131A
132A and one from the second extension outwardly extending second edge portion 133A of 132A, wherein fixed valve plate 12A this first
Fluid control plane 120A has central part 1200A shown in a figure chain lines, and wherein central part 1200A is located at
First central part 121A of fixed valve plate 12A, and the part except the central part 1200A of first fluid control plane 120A
It is divided into a first part 1201A, a second part 1202A shown in chain-dotted line, a Part III clockwise
1203A, a Part IV 1204A, a Part V 1205A, a Part VI 1206A, a Part VII
1207A, a Part VIII 1208A, a Part IX 1209A, a Part X 12010A and one the tenth a part
12011A;The second fluid control plane 130A of the moving valve plate 13A of flat valve 10A has shown in a figure chain lines
Central area 1300, wherein central area 1300A is set to second central part 131A of moving valve plate 13A, and the second
Part except the central area 1300A of body control plane 130A is divided into a first area shown in chain-dotted line clockwise
1301A, a second area 1302A, a third region 1303A, a fourth region 1304A, the 5th region
1305A, a 6th region 1306A, a District 7 domain 1307A, a Section Eight domain 1308A, the 9th region
1309A, a tenth region 13010A and a 11st region 13011A;Wherein first passage 101A is from first fluid control
The first part 1201A of face 120A processed is extended downwardly;The first fluid control of 8th channel 108A from fixed valve plate 12A
Second part 1202A, Part III 1203A, Part IV 1204A and the Part V 1205A of face 120A processed to
Lower extension;Second channel 102A from the Part VI 1206A of the first fluid control plane 120A of fixed valve plate 12A to
Lower extension;The Part VII 1207A of fourth lane 104A from the first fluid control plane 120A of fixed valve plate 12A are downward
Extend;The Part VIII 1208A of 7th channel 107A from first fluid control plane 120A are extended downwardly;6th channel
The Part IX 1209A of 106A from first fluid control plane 120A are extended downwardly;Third channel 103A is first-class from this
The Part X 12010A of body control plane 120A is extended downwardly;The Five-channel 105A is from first fluid control plane 120A
The tenth a part of 12011A extend downwardly;12nd channel 1012A from first fluid control plane 120A this second
Part 1202A is extended downwardly;The wherein central part of the tenth four-way 1014A from first fluid control plane 120A
1200A is extended downwardly;The first area 1301A of 9th channel 109A from second fluid control plane 130A are upwardly extended;
The central area 1300A of 11st channel 1011A from second fluid control plane 130A extend to second fluid control
The Section Eight domain 1308A of face 130A;Tenth channel 1010A is from the tenth region of second fluid control plane 130A
13010A and the 11st region 13011A are upwardly extended;Tenth triple channel 1013A is from second fluid control plane 130A's
Second area 1302A is upwardly extended.
It is appreciated that when the second fluid control plane 130A of moving valve plate 13A be arranged on fixed valve plate 12A this
When one fluid control plane 120A, the second central part 131A face of the second fluid control plane 130A of moving valve plate 13A should
The second fluid of first central part 121A, moving valve plate 13A of the first fluid control plane 120A of fixed valve plate 12A control
First extension of the first fluid control plane 120A of the second extension 132A face fixed valve plate 12A of face 130A
Second edge portion 133A face fixed valve plate 12A of the second fluid control plane 130A of 122A, moving valve plate 13A this
The first edge portion 123A of one fluid control plane 120A.
Optionally, the first fluid control plane 120A and moving valve plate 13A of the fixed valve plate 12A of flat valve 10A this second
Fluid control plane 130A is circle, first passage 101A, second channel 102A, third channel 103A, the four-way
Road 104A, the Five-channel 105A, the 6th channel 106A, the 7th channel 107A, the 8th channel 108A and the 12nd
Channel 1012A is radially set to the first fluid control plane 120A of fixed valve plate 12A, and the 9th channel 109A, this
Ten channel 1010A and the tenth triple channel 1013A are radially set to the second fluid control plane 130A of moving valve plate 13A.
Preferably, the first passage 101A of flat valve 10A, second channel 102A, third channel 103A, this
Four-way 104A, the 6th channel 106A, the 7th channel 107A and the 8th channel 108A are respectively set at the fixed valve plate
First extension 122A, the Five-channel 105A of the first fluid control plane 120A of 12A is arranged on the first fluid
The first edge portion 123A of control plane 120A simultaneously extends internally from first edge portion 123A, the 12nd channel 1012A quilt
The first edge portion 123A of first fluid control plane 120A is set.It is highly preferred that the Five-channel 105A is arranged on
The first edge portion 123A of first fluid control plane 120A and to extend inwardly to this from first edge portion 123A first-class
First extension 122A of body control plane 120A.
Preferably, it is dynamic to be respectively set at this by the 9th channel 109A and the 11st channel 1011A of flat valve 10A
Second extension 132A, the tenth channel 1010A and the tenth triple channel of the second fluid control plane 130A of valve block 13A
1013A be respectively set at the second edge portion 133A of the second fluid control plane 130A of moving valve plate 13A and from this
Two edge part 133A extend inwardly to second extension 132A.
Preferably, first fluid control plane 120A of the first passage 101A of flat valve 10A from fixed valve plate 12A
It extends downwardly and outwardly, second channel 102A downwardly and outwardly prolongs from the first fluid control plane 120A of fixed valve plate 12A
It stretches, third channel 103A is extended downwardly and outwardly from the first fluid control plane 120A of fixed valve plate 12A, the four-way
Road 104A extends downwardly and outwardly from the first fluid control plane 120A of fixed valve plate 12A, the Five-channel 105A from this determines valve
The first fluid control plane 120A of piece 12A extends downwardly and outwardly, the 6th channel 106A is from the first fluid of fixed valve plate 12A
Control plane 120A is extended downwardly and outwardly, the first fluid control plane 120A of the 7th channel 107A from fixed valve plate 12A are downward
With extend outwardly, the 8th channel 108A is extended downwardly and outwardly from the first fluid control plane 120A of fixed valve plate 12A, should
12nd channel 1012A is extended downwardly and outwardly from the first fluid control plane 120A of fixed valve plate 12A, the tenth four-way
Road 1014A is extended downwardly and outwardly from the first fluid control plane 120A of fixed valve plate 12A.
As shown in Figure 31 to Figure 37 of attached drawing, according to the plane of the water treatment system of the second preferred embodiment of the utility model
The valve body 11A of valve 10A has an inner wall 111A, and wherein fixed valve plate 12A is suitable for first fluid control plane 120A upward
Ground is set to inner cavity 110A and moving valve plate 13A and is set to inner cavity 110A facing downward suitable for second fluid control plane 130A,
In inner cavity 110A be connected always with the 9th channel 109A.It is worth noting that, the fixed valve plate 12A of flat valve 10A
The inner wall 111A of valve body 11A can be removably disposed in, can also with the valve body 11A of flat valve 10A this is interior
Wall 111A phase is integrally formed.It will be understood by those skilled in the art that when fixed valve plate 12A is removably disposed in the valve body
When in 11A, fixed valve plate 12A and the valve body are kept by a fixed mechanism between fixed valve plate 12A and valve body 11A
Synchronization between 11A.For example, fixed valve plate 12A is with one from fixed valve plate 12A's as shown in Figure 31 to Figure 37 of attached drawing
The inner wall 111A of the outwardly projecting brake component 123A in edge, valve body 11A have a breaker slot 1110A, and wherein this determines valve
The brake component 123A of piece 12A, which is set, to be meshed with the breaker slot 1110A of the inner wall 111A of valve body 11A, with
Ensure to be synchronised between fixed valve plate 12A and valve body 11A (or will not relatively rotate) and ensure to be arranged on this and determines valve
Each channel of piece 12A is connected with the corresponding opening for being arranged on valve body 11A.It is appreciated that working as fixed valve plate 12A quilt
When being removably disposed in valve body 11A, fixed valve plate 12A is separately manufactured.In other words, at this point, the fixed valve plate
12A can be made of wear-resistant material, to improve the service life of fixed valve plate 12A (or entire flat valve).Preferably, this determines valve
The smoothed processing of the first fluid control plane 120A of piece 12A is to reduce its degree of roughness.
As shown in Figure 31 to Figure 37 of attached drawing, according to the plane of the water treatment system of the second preferred embodiment of the utility model
Valve 10A further comprises the driving element 18A upwardly extended from moving valve plate 13A, and wherein driving element 18A is set
The moving valve plate 13A of flat valve 10A can be driven to rotate with respect to fixed valve plate 12A.
As shown in Figure 31 to Figure 37 of attached drawing, according to the plane of the water treatment system of the second preferred embodiment of the utility model
Valve 10A further comprises a sealing element 17A, and wherein sealing element 17A is set facing with driving element 18A
Face, wherein sealing element 17A forms a primary sealing area 170A, and driving element 18A forms a secondary sealing area
180A, wherein the primary sealing area 170 of sealing element 17A is arranged on the secondary sealing area of driving element 18A
180, so that when driving element 18A is rotated relative to sealing element 17A, to drive moving valve plate 13A to determine valve with respect to this
When piece 12A is rotated, the leakage of water is sealed and prevented between driving element 18A and sealing element 17A.In addition, the sealing
Element 17A, which is set, to be able to maintain driving element 18A and is in appropriate location, thus keep moving valve plate 13A be in one it is pre-
If position.
As shown in Figure 31 to Figure 37 of attached drawing, according to the plane of the water treatment system of the second preferred embodiment of the utility model
The diameter of the slightly smaller than inner cavity 110A of valve body 11A is set in the diameter of the moving valve plate 13A of valve 10A, so that the plane
The 9th channel 109A of valve 10A can keep being connected with the inner cavity 110A of valve body 11A by water inlet 1091A.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to the water of the second preferred embodiment of the utility model
The control device 16A of the flat valve 10A of processing system, which is set, to be passed through according to a purification-softening control instruction
One transmission mechanism 14A, such as transmission gear drive driving element 18A to rotate, to drive the moving valve plate of flat valve 10A
13A relative to fixed valve plate 12A rotate, thus formed one respectively with the inner cavity 110A of the valve body 11A of flat valve 10A and
5th opening 1105A be connected the first communicating passage 1001A, one respectively with valve body 11A this second opening 1102A
It is open respectively with the 6th of valve body 11A the with the 7th opening 1107A the second communicating passage 1002A being connected and one
1106A and the 8th opening third connecting channel 1003A that is connected of 1108A, with allow raw water from valve body 11A this is interior
The 5th opening 1105A of first communicating passage 1001A, valve body 11A by flat valve 10A formation, chamber 110A is somebody's turn to do
The first connection opening 201 of purification device 20 flows into the purification device 20, and raw water is after 20 purified treatment of purification device
Obtained water purification is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way, wherein water purification all the way
First lead-through opening 301 through the Softening box 31 flows into the Softening box 31, and softened water, softened water are obtained after softened processing
It is flowed out from second lead-through opening 302 of the Softening box 31, then the 7th the opening 1107A, the flat valve through valve body 11A
Second communicating passage 1002A of 10A, most afterwards second opening 1102A through valve body 11A, which is flowed out and supplied to user, to be softened
Water, another way water purification flow through the third connecting channel 1003A of the 6th opening 1106A of valve body 11A, flat valve 10A,
Most the 8th opening 1108A through valve body 11A flows out and supplies water purification to user afterwards;According to a softening filter core (softening dress
Set) backwash control instruction, by transmission mechanism 14A, such as transmission gear drives driving element 18A to rotate, to drive this flat
The moving valve plate 13A of face valve 10A is rotated relative to fixed valve plate 12A, to form the valve body with flat valve 10A respectively
The 4th communicating passage 1004A that is connected of opening 1107A of the inner cavity 110A of 11A and the 7th and one respectively with the valve body
The 5th communicating passage 1005A that the 9th opening 1109A of the 6th opening 1106A and flat valve 10A of 11A are connected,
To allow raw water to be flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then by should
Flat valve 10A formed the 4th communicating passage 1004A flow into the 7th opening 1107A, then through the Softening box 31 this second
Lead-through opening 302 flows into the Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softens resin
Deng after back flush, obtained sewage or waste water is flowed out from first lead-through opening 301 of the Softening box 31, then flows through this
The 6th opening 1106A of valve body 11A flows into the 5th communicating passage 1005A of flat valve 10A, then from the flat valve
10A the 9th opening 1109A outflow, meanwhile, also formed one respectively with valve body 11A this second opening 1102A and be somebody's turn to do
The 16th communicating passage 10016A that inner cavity 110A is connected, to allow the first opening 1101A stream of raw water from valve body 11A
Enter the inner cavity 110A to valve body 11A, then by the 16th communicating passage 10016A flow into valve body 11A this second
Be open 1102A, provides raw water to user, also forms be open respectively with the 8th of valve body 11A the 1108A and the inner cavity
The 17th communicating passage 10017A that 110A is connected, to allow raw water to be flowed into from first opening 1101A of valve body 11A
The inner cavity 110A of valve body 11A, then flow into valve body 11A by the 17th communicating passage 10017A the 8th open
Mouth 1108A provides raw water to user;It is such as passed according to a purification device backwash control instruction by transmission mechanism 14A
Moving gear drives driving element 18A to rotate, to drive the moving valve plate 13A of flat valve 10A to turn with respect to fixed valve plate 12A
It is dynamic, so that it is logical to form the 6th connection that one is connected with the opening of the inner cavity 110A of valve body 11A and the 6th 1106A respectively
The road 1006A and 1109A that is open respectively with the 9th of the 5th opening 1105A and flat valve 10A of valve body 11A the
The 7th communicating passage 1007A being connected, to allow raw water to be flowed into the valve body from first opening 1101A of valve body 11A
Then the inner cavity 110A of 11A flows into the 6th opening 1106A by the 6th communicating passage 1006A, enters back into the purification
The second connection opening 202 of device 20, in the purification device 20 material for water treatment or mechanism back flush after, it is net from this
20 201 outflow of the first connection opening is set in makeup, and the 5th opening 1105A for then flowing through valve body 11A flows into the 7th
Communicating passage 1007A, then from the 9th of flat valve 10A opening 1109A outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016A that second opening 1102A of valve body 11A is connected with inner cavity 110A, to allow raw water certainly
First opening 1101A of valve body 11A is flowed into the inner cavity 110A of valve body 11A, then logical by the 16th connection
Road 10016A flow into valve body 11A this second opening 1102A, to user provide raw water, also formed one respectively with the valve
The 17th communicating passage 10017A that the 8th opening 1108A of body 11A is connected with inner cavity 110A, to allow raw water certainly should
First opening 1101A of valve body 11A is flowed into the inner cavity 110A of valve body 11A, then passes through the 17th communicating passage
10017A flows into the 8th opening 1108A of valve body 11A, provides raw water to user.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to the water of the second preferred embodiment of the utility model
The control device 16A of the flat valve 10A of processing system is further set can be according to a softening filter core Regeneration control
Instruction, by transmission mechanism 14A, such as transmission gear drives driving element 18A to rotate, to drive being somebody's turn to do for flat valve 10A
Moving valve plate 13A relative to fixed valve plate 12A rotate, thus formed one respectively with the inner cavity 110A and the third of valve body 11A
Eight connectivity channel 1008A that opening 1103A is connected, one be open respectively with the 7th of the valve body 11A 1107A and this
Four the 9th communicating passage 1009A that are connected of opening 1104A and one be open respectively with the 6th of valve body 11A the 1106A and
The tenth communicating passage 10010A that the 9th opening 1109A of flat valve 10A is connected, to allow raw water from valve body 11A
First opening 1101A be flowed into the inner cavity 110A of valve body 11A, then flowed by the eight connectivity channel 1008A
Third opening 1103A, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from the salt
The entry portal 322 after the liquid of liquid case 33 through the ejector 32 flows into the 4th opening 1104A of valve body 11A, then leads to
Cross the 9th communicating passage 1009A flow into the 7th opening 1107A, it is inverse into second lead-through opening 302 of the Softening box 31
It after stream regenerates the softening resin in the Softening box 31, is flowed out from first lead-through opening 301, then flows through being somebody's turn to do for valve body 11A
6th opening 1106A flows into the tenth communicating passage 10010A, then flows out from the 9th opening 1109A of flat valve 10A,
Meanwhile also forming the 16th connection being connected respectively with second opening 1102A and inner cavity 110A of valve body 11A
Channel 10016A, to allow raw water to be flowed into the inner cavity of valve body 11A from first opening 1101A of valve body 11A
Then 110A is flowed into second opening 1102A of valve body 11A by the 16th communicating passage 10016A, mentioned to user
For raw water, the 17th company being connected respectively with the 8th opening 1108A and inner cavity 110A of valve body 11A is also formed
Circulation passage 10017A, to allow raw water to be flowed into the inner cavity of valve body 11A from first opening 1101A of valve body 11A
Then 110A is flowed into the 8th opening 1108A of valve body 11A by the 17th communicating passage 10017A, mentioned to user
For raw water;Control instruction is just washed according to a softening filter core (softening plant), by transmission mechanism 14A, such as transmission gear,
Driving element 18A is driven to rotate, to drive the moving valve plate 13A of flat valve 10A to rotate relative to fixed valve plate 12A, thus
Form the 11st communicating passage being connected respectively with the opening of the inner cavity 110A of valve body 11A and the 6th 1106A
10011A and 1109A phase that is open respectively with the 9th of the 7th opening 1107A and flat valve 10A of valve body 11A the
12nd communicating passage 10012A of connection, to allow raw water to be flowed into the valve from first opening 1101A of valve body 11A
Then the inner cavity 110A of body 11A flows into the 6th opening 1106A by the 11st communicating passage 10011A, enters back into this
First lead-through opening 301 of Softening box 31, in the Softening box 31 material for water treatment or mechanism forward direction rinse after, it is soft from this
Second lead-through opening 302 outflow for changing case 31, the 7th opening 1107A for then flowing through valve body 11A flow into the 12nd
Communicating passage 10012A, then from the 9th of flat valve 10A opening 1109A outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016A that second opening 1102A of valve body 11A is connected with inner cavity 110A, to allow raw water certainly
First opening 1101A of valve body 11A is flowed into the inner cavity 110A of valve body 11A, then logical by the 16th connection
Road 10016A flow into valve body 11A this second opening 1102A, to user provide raw water, also formed one respectively with the valve
The tenth eight connectivity channel 10018A that the 8th opening 1108A of body 11A is connected with inner cavity 110A, to allow raw water certainly should
First opening 1101A of valve body 11A is flowed into the inner cavity 110A of valve body 11A, then passes through the tenth eight connectivity channel
10018A flows into the 8th opening 1108A of valve body 11A, provides raw water to user.
As shown in Figure 38 A to Figure 44 and Figure 46 A to Figure 46 G of attached drawing, according to the water of the second preferred embodiment of the utility model
The control device 16A of the flat valve 10A of processing system, which is further set, just to wash control according to a purification device
Instruction, by transmission mechanism 14A, such as transmission gear drives driving element 18A to rotate, to drive being somebody's turn to do for flat valve 10A
Moving valve plate 13A is rotated relative to fixed valve plate 12A, to form the inner cavity 110A and the 5th with valve body 11A respectively
The tenth tee joint channel 10013A that is connected of opening 1105A and one be open respectively with the 6th of valve body 11A the 1106A and
The 14th communicating passage 10014A that the 9th opening 1109A of flat valve 10A is connected, to allow raw water from the valve body
First opening 1101A of 11A is flowed into the inner cavity 110A of valve body 11A, then passes through the tenth tee joint channel
10013A flows into the 5th opening 1105A, the first connection opening 201 of the purification device 20 is entered back into, to the purification device
After material for water treatment or mechanism forward direction in 20 rinse, from 202 outflow of the second connection opening of the purification device 20, then flow
The 6th opening 1106A through valve body 11A flows into the 14th communicating passage 10014A, then being somebody's turn to do from flat valve 10A
9th opening 1109A outflow, meanwhile, also formed one respectively with the second opening 1102A and inner cavity of valve body 11A
The 16th communicating passage 10016A that 110A is connected, to allow raw water to be flowed into from first opening 1101A of valve body 11A
Then the inner cavity 110A of valve body 11A flows into second opening of valve body 11A by the 16th communicating passage 10016A
1102A provides raw water to user, also forms the 1108A and inner cavity 110A that is open respectively with the 8th of valve body 11A the
The 17th communicating passage 10017A being connected, to allow raw water to be flowed into the valve from first opening 1101A of valve body 11A
Then the inner cavity 110A of body 11A flows into the 8th opening of valve body 11A by the 17th communicating passage 10017A
1108A provides raw water to user;According to a moisturizing control instruction, pass through transmission mechanism 14A, such as transmission gear, driving
Driving element 18A rotation, to drive the moving valve plate 13A of flat valve 10A to rotate relative to fixed valve plate 12A, to be formed
One the 15th communicating passage being connected respectively with the opening of the inner cavity 110A of valve body 11A and the 4th 1104A
10015A, to allow raw water to be flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, so
The 4th opening 1104A is flowed by the 15th communicating passage 10015A afterwards, then flows into the entry portal of the ejector 32
322, to 33 moisturizing of brine tank, meanwhile, also formed one respectively with the second opening 1102A and inner cavity of valve body 11A
The 16th communicating passage 10016A that 110A is connected, to allow raw water to be flowed into from first opening 1101A of valve body 11A
Then the inner cavity 110A of valve body 11A flows into second opening of valve body 11A by the 16th communicating passage 10016A
1102A provides raw water to user, also forms be open respectively with the 8th of valve body 11A the 1108A and the inner cavity
The 17th communicating passage 10017A that 110A is connected, to allow raw water to be flowed into from first opening 1101A of valve body 11A
The inner cavity 110A of valve body 11A, then flow into valve body 11A by the 17th communicating passage 10017A the 8th open
Mouth 1108A provides raw water to user.
It is worth noting that, correspondingly, when the water treatment system according to the second preferred embodiment of the utility model be in this
Two working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016A is visual
The a part in water route is supplied for first raw water), wherein first raw water supply water route, which is set, allows raw water that can flow through this
Raw water is supplied water route and is provided by second opening 1102A of valve body 11A;When according to the preferably implementation of the utility model second
The water treatment system of example is in second working condition, the third working condition, the 4th working condition, the 5th work shape
When state, the 6th working condition and seven working conditions, which forms second raw water and supplies water route, wherein
Second raw water supply water route, which is set, allows raw water that can flow through raw water supply water route and by the 8th of valve body 11A
Opening 1108A is provided.Preferably, the water treatment system is in second working condition, the third working condition, the 4th work
Second raw water that state, the 6th working condition and the 7th working condition are formed supplies water route (the 17th communicating passage
10017A participates in being formed, can be considered second raw water supply water route a part) and the water treatment system the 5th work shape
(the tenth eight connectivity channel 10018A participates in being formed, and can be considered that second raw water supplies in morphogenetic second raw water supply water route
Answer a part in water route) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of control device 16A, can also pass through an electronics
Communication network passes through an input interface input received from a controlling terminal, or by user.For example, working as the utility model
Water treatment system is provided having the input interface for flat valve 10A, when such as Trackpad or control button, uses
Person can send above-mentioned control instruction to the control module of control device 16A by touch panel or corresponding control button, with
The control module of control device 16A is set to control the motor rotation of control device 16A, to pass through a transmission mechanism 14A
Driving element 18A is driven to rotate.
As shown in Figure 31 to Figure 32, Figure 46 A to Figure 46 G of attached drawing, at the water according to the second preferred embodiment of the utility model
Reason system illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element, wherein
The purification device 20 includes that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on the shell
Filter house 23 in 21, wherein the filter house 23 can be the ultrafiltration silk for ultra-filtration filters, net type filter or stacked
Filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, such as the figure of attached drawing
Shown in 46A to Figure 46 G, the softening plant 30 of the utility model water treatment system includes a Softening box 31, the wherein softening
Case 31 includes 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, and wherein the cabinet 311 has one
Soften 3110, first lead-through openings 301 of chamber and second lead-through opening 302, wherein the liquid collecting unit 312 includes one
A central tube 3121, the water pliable cell 313 be suitable for be contained within the softening chamber 3110, wherein the central tube 3121 be suitable for
Second lead-through opening 302 is connected, and wherein the central tube 3121 has one high end opening 31211 and a low side opening
31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting unit 312
The low side opening 31212 of central tube 3121 flows into the central tube 3121 and the high end opening 31211 from the central tube 3121 flows out;
Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, with the work of softening performance
Property charcoal or other similar softener materials or combinations thereof.
It is appreciated that first passage 101A, being somebody's turn to do to strengthen the structural strength of the fixed valve plate 12A of flat valve 10A
Second channel 102A, it third channel 103A, fourth lane 104A, the Five-channel 105A, the 6th channel 106A, is somebody's turn to do
7th channel 107A, the 8th channel 108A and the 12nd channel 1012A can be split by reinforcing entity structure or
Separate into two adjacent slightly smaller channels.For example, as shown in Figure 53 to Figure 56 G of attached drawing, it is preferably real according to the utility model second
The 8th channel 108A of the fixed valve plate 12A of the flat valve 10A of the water treatment system of example is applied by a ribs or is added
Strengthening tendons are spaced into the slightly smaller channel 1081A and channel 1082A of two internal diameters, wherein when flat valve 10A is in first work
When making position, the tenth triple channel 1013A of flat valve 10A is connected with channel 1081A and the 12nd channel 1012A respectively
It is logical, to form third connecting channel 1003A;When flat valve 10A is in second working position, flat valve 10A's
11st channel 1011A is connected with channel 1081A and the tenth four-way 1014A respectively, to form the 5th company
Circulation passage 1005A;When flat valve 10A is in the third working position, the 9th channel 109A is connected with channel 1082A,
To form the 6th communicating passage 1006A;When flat valve 10A is in four working positions, the 11st channel 1011A
It is connected respectively with channel 1082A and the tenth four-way 1014A, to form the tenth communicating passage 10010A;When this
When flat valve 10A is in five working positions, the 9th channel 109A of flat valve 10A is connected with channel 1081A, from
And form the 11st communicating passage 10011A;When flat valve 10A is in six working positions, the flat valve 10 this
11 channel 1011A are connected with channel 1081A and the tenth four-way 1014A respectively, to form the 14th connection
Channel 10014A.Correspondingly, when flat valve 10A is in the first working position, which is in purification-softening work shape
State, raw water are flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then pass through the dynamic valve
The 9th channel 109A of piece 13A flows into the first passage 101A of fixed valve plate 12A, then by valve body 11A this
Five opening 1105A enter the purification device 20 this first connection opening 201, by the purification device 20 material for water treatment or
After mechanism processing, from 202 outflow of the second connection opening of the purification device 20, the water purification being then out is divided into two-way, wherein
Water purification flows into first lead-through opening 301 of the Softening box 31 all the way, after the softening resin treatment in the Softening box 31, from
Second lead-through opening 302 of the Softening box 31 flows out, and the 7th opening 1107A for then flowing through valve body 11A is fixed into this
The third channel 103A of valve block 12A enters fixed valve plate 12A by the tenth channel 1010A water conservancy diversion of moving valve plate 13A
The Five-channel 105A, then by valve body 11A this second opening 1102A to user's supply processing after water, another way
The 6th opening 1106A that water purification flows through valve body 11A enters the channel 1081A of fixed valve plate 12A, by the moving valve plate
The tenth triple channel 1013A water conservancy diversion of 13A enters the 12nd channel 1012A of fixed valve plate 12A, most afterwards through valve body 11A
The 8th opening 1108A outflow and to user supply water purification;When flat valve 10A is in the second working position, the water process
Machine is in softening filter core (softening plant) the backwash working condition, and raw water is flowed into from first opening 1101A of valve body 11A
Then the inner cavity 110A of valve body 11A flows into being somebody's turn to do for fixed valve plate 12A by the 9th channel 109A of moving valve plate 13A
Then fourth lane 104A enters second lead-through opening of the Softening box 31 by the 7th opening 1107A of valve body 11A
302, after the softening resin back flush in the Softening box 31, flowed out from first lead-through opening 301 of the Softening box 31, so
The 6th opening 1106A for flowing through valve body 11A afterwards, passes through channel 1081A, the moving valve plate 13A of fixed valve plate 12A
The 11st channel 1011A and fixed valve plate 12A the tenth four-way 1014A, then from the 9th of flat valve 10A
Be open 1109A outflow;When flat valve 10A is in third working position, which is in purification device backwash work shape
State, raw water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then dynamic by this
The 9th channel 109A of valve block 13A flows into the channel 1082A of fixed valve plate 12A, then by valve body 11A this
Six opening 1106A enter the second connection opening 202 of the purification device 20, to the material for water treatment in the purification device 20
Or after mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, being somebody's turn to do for valve body 11A is then flowed through
5th opening 1105A passes through the 11st channel of moving valve plate 13A into the first passage 101A of fixed valve plate 12A
Nineth opening 1109A outflow of the tenth four-way 1014A of 1011A and fixed valve plate 12A from flat valve 10A;Into one
Step ground, when flat valve 10A is in four working positions, which is in the softening filter core reproduction operation state, raw water
It is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of the valve body 11, then passes through moving valve plate 13A's
9th channel 109A flows into the 6th channel 106A of fixed valve plate 12A, is then open by the third of valve body 11A
1103A flows into the exit wound of bullet 321 of the ejector 32, by 32 jet stream of ejector, mixes the liquid from the brine tank 33
The 4th opening 1104A that valve body 11A is flowed by the entry portal 322 of the ejector 32, subsequently into fixed valve plate 12A
The 7th channel 107A, using moving valve plate 13A the tenth channel 1010A water conservancy diversion enter fixed valve plate 12A the 4th
Channel 104A, the 7th opening 1107A for then flowing through valve body 11A enter second lead-through opening 302 of the Softening box 31,
In the counter-current regeneration Softening box 31 as softening resin after, from first lead-through opening 301 flow out, then flow through valve body 11A
The 6th opening 1106A enter the channel 1082A of fixed valve plate 12A, then pass through the 11st logical of moving valve plate 13A
The tenth four-way 1014A of road 1011A and fixed valve plate 12A, from the 9th opening 1109A outflow of flat valve 10A;
When flat valve 10A is in five working positions, which is in the softening filter core (softening plant) and just washes working condition,
Raw water is flowed into the inner cavity 110A of valve body 11A from first opening 1101A of valve body 11A, then passes through the moving valve plate
The 9th channel 109A of 13A flows into the channel 1081A of fixed valve plate 12A, then passes through the 6th opening of valve body 11A
1106A enters first lead-through opening 301 of the Softening box 31, after being rinsed to the softening resin forward direction in the Softening box 31, from
Second lead-through opening 302 of the Softening box 31 flows out, and then flows through the 7th opening 1107A of valve body 11A, passes through this
The 11st channel 1011A and fixed valve plate 12A of the third channel 103A and moving valve plate 13A of fixed valve plate 12A this
Ten four-way 1014A, then the 9th opening 1109A outflow from flat valve 10A;Further, at flat valve 10A
When six working positions, which is in the purification device and just washes working condition, and raw water first is opened from this of valve body 11A
Mouth 1101A is flowed into the inner cavity 110A of valve body 11A, and then being flowed by the 9th channel 109A of moving valve plate 13A should
Then the second channel 102A of fixed valve plate 12A enters the purification device 20 by the 5th opening 1105A of valve body 11A
This first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification device
20 202 outflow of the second connection opening, then flows through the 6th opening 1106A of valve body 11A, into fixed valve plate 12A
Channel 1081A, pass through the tenth four-way of the 11st channel 1011A and fixed valve plate 12A of moving valve plate 13A
Nineth opening 1109A outflow of the 1014A from flat valve 10A;When flat valve 10A is in seven working positions, at the water
Reason machine is in the brine tank moisturizing working condition, and raw water is flowed into valve body 11A from first opening 1101A of valve body 11A
Inner cavity 110A, the 7th channel of fixed valve plate 12A is then flowed by the 9th channel 109A of moving valve plate 13A
107A, the 4th opening 1104A for then flowing through valve body 11A flows into the entry portal 322 of the ejector 32, to brine tank 33
Moisturizing.
With reference to shown in Figure 57 A to Figure 60 G of attached drawing, according to this of the water treatment system of the second preferred embodiment of the utility model
The optional implementation of one kind of flat valve 10A is elucidated with, and wherein flat valve 10Q has a first passage 101A, and one second logical
Road 102A, third channel 103A, a fourth lane 104A, a Five-channel 105Q, a 6th channel 106A, one
A 7th channel 107A, a 8th channel 108A, a 9th channel 109A, a tenth channel 1010A, one the 11st
Channel 1011A, a 12nd channel 1012Q, a tenth triple channel 1013A and a tenth four-way 1014A wherein should
First passage 101A, second channel 102A, third channel 103A, fourth lane 104A, the Five-channel 105Q, this
Six channel 106A, the 7th channel 107A, the 8th channel 108A, the 12nd channel 1012Q and the tenth four-way
1014A is respectively arranged on fixed valve plate 12A and extends respectively from the first fluid control plane 120A of fixed valve plate 12A;9th
Channel 109A, the tenth channel 1010A, the 11st channel 1011A and the tenth triple channel 1013A are respectively arranged on the moving valve plate
13A simultaneously extends from the second fluid control plane 130A of moving valve plate 13A, first passage 101A and the second channel respectively
102A is connected with the 5th opening 1105A respectively, and third channel 103A and fourth lane 104A are opened with the 7th respectively
Mouth 1107A is connected, which is connected with second opening 1102A, and the 6th channel 106A is opened with the third
Mouth 1103A is connected, and the 7th channel 107A is connected with the 4th opening 1104A, and the 8th channel 108A is opened with the 6th
Mouth 1106A is connected, and the 12nd channel 1012Q is connected with the 8th opening 1108A, the 9th channel 109A and the valve body
The inner cavity 110A of 11A is connected, and the 11st channel 1011A is connected with the tenth four-way 1014A, the tenth four-way
1014A is connected with the 9th opening 1109A.
As shown in Figure 57 A to Figure 60 G of attached drawing, when flat valve 10Q is in the second working position, flat valve 10Q's
The Five-channel 105Q and the 12nd channel 1012Q is closed by moving valve plate 13A respectively;When flat valve 10Q is in third
When working position, Five-channel 105Q and the 12nd channel 1012Q of flat valve 10Q is closed by moving valve plate 13A respectively;
When flat valve 10Q is in four working positions, the Five-channel 105Q and the 12nd channel 1012Q of flat valve 10Q
It is closed respectively by moving valve plate 13A;When flat valve 10Q is in five working positions, the Five-channel 105Q of flat valve 10Q
It is closed by moving valve plate 13A;When flat valve 10Q is in six working positions, the Five-channel 105Q of flat valve 10Q
It is closed respectively by moving valve plate 13A with the 12nd channel 1012Q;When flat valve 10Q is in seven working positions, this is flat
Five-channel 105Q and the 12nd channel 1012Q of face valve 10Q is closed by moving valve plate 13A respectively.In other words, should
Flat valve 10Q and flat valve 10A the difference is that, when the water treatment system according to the second preferred embodiment of the utility model
Flat valve 10Q is in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When position and seven working positions, flat valve 10Q does not re-form (or can not be formed) the 16th communicating passage 10016A;When this
Flat valve 10Q is in second working position, the third working position, the 4th working position, the 6th working position and the 7th work
When position, flat valve 10Q does not re-form (or can not be formed) the 17th communicating passage 10017A.In other words, when the plane
When valve 10Q is in second working position, the third working position, the 4th working position, the 6th working position and seven working positions,
Flat valve 10Q does not pass through the second opening 1102A and the 8th opening 1108A provides pending water (or raw water);When this is flat
When face valve 10Q is in five working positions, flat valve 10Q does not pass through second opening 1102A, and to provide pending water (or former
Water).
With reference to Figure 61 to Figure 90 G of the utility model attached drawing, according to the water process system of the utility model third preferred embodiment
System is illustrated, and it is suitable for carrying out purifying-sofening treatment to pending water (or raw water), wherein the water treatment system includes one
A fluid valve 10B, a purification device 20 and a softening plant 30, wherein fluid valve 10B includes a valve body 11B and one
A spool 1B, wherein fluid valve 10B has an inner cavity 110B, a first opening 1101B, second opening
1102B, a third opening 1103B, a 4th opening 1104B, a 5th opening 1105B, the 6th opening
1106B, the 7th 1107B and one a 8th opening 1108B of opening, wherein spool 1B is arranged on inner cavity 110B.It is excellent
Selection of land, fluid valve 10B are further formed one the 9th opening 1109B.It is appreciated that first opening 1101B, this second opens
Mouthful 1102B, third opening 1103B, the 4th opening 1104B, the 5th opening 1105B, the 6th opening 1106B, this
Seven opening 1107B and the 8th opening 1108B are spaced apart valve body 11B in fluid valve 10B.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to being somebody's turn to do for the utility model third preferred embodiment
Water treatment system has first working condition, second working condition and a third working condition, wherein when the water
When processing system is in first working condition, fluid valve 10B formed one respectively with valve body 11B this first opening
The first communicating passage 1001B that the opening of 1101B and the 5th 1105B is connected, one second opened with this of valve body 11B respectively
Mouthful 1102B and the 7th be open the second communicating passage 1002B that 1107B is connected and one respectively with valve body 11B this
Six opening 1106B and the 8th are open the third connecting channel 1003B that is connected of 1108B, when the water treatment system be in this
When two working conditions, fluid valve 10B forms one and is open respectively with the first opening 1101B and the 7th of valve body 11B
The 4th communicating passage 1004B that 1107B is connected and one respectively with the 6th opening 1106B and one of valve body 11B the
The 5th communicating passage 1005B that nine opening 1109B are connected, when the water treatment system is in the third working condition, the stream
Body valve 10B forms the 6th that the 1106B that is open respectively with the first opening 1101B and the 6th of valve body 11B is connected
Communicating passage 1006B and the 1105B and the 9th that is open respectively with the 5th of valve body 11B the are open what 1109B was connected
7th communicating passage 1007B.Preferably, further there is one according to the water treatment system of the utility model third preferred embodiment
4th working condition and the 5th working condition, when the water treatment system is in four working conditions, fluid valve 10B
Form the eight connectivity channel being connected respectively with the first opening 1101B of valve body 11B and third opening 1103B
1008B, the 9th connection that the opening of 1107B and the 4th 1104B is connected that is open respectively with the 7th of valve body 11B the are logical
The tenth company that road 1009B and the opening of 1106B and the 9th 1109B that is open respectively with the 6th of valve body 11B the are connected
Circulation passage 10010B, when the water treatment system is in five working conditions, fluid valve 10B formed one respectively with the valve
The first opening 1101B and the 6th opening 1106B the 11st communicating passage 10011B being connected of body 11B and a difference
The 12nd communicating passage 10012B being connected with the 7th opening 1107B of valve body 11B and the 9th opening 1109B.More
Preferably, further there is the 6th working condition and one according to the water treatment system of the utility model third preferred embodiment
7th working condition, when the water treatment system is in six working conditions, fluid valve 10B formed one respectively with the valve
The first opening 1101B and the 5th opening 1105B the tenth tee joint channel 10013B being connected of body 11B and a difference
The 14th communicating passage 10014B being connected with the 6th opening 1106B of valve body 11B and the 9th opening 1109B, when
When the water treatment system is in seven working conditions, fluid valve 10B forms one and first opens with this of valve body 11B respectively
The 15th communicating passage 10015B that mouth 1101B is connected with the 4th opening 1104B.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, further, when preferable according to the utility model third
The water treatment system of embodiment is in second working condition, the third working condition, the 4th working condition, the 5th work
When state, the 6th working condition and seven working conditions, the moving valve plate 13B and fixed valve plate 12B shape of flat valve 10B
The 16th connection being connected respectively with the first opening 1101B of valve body 11B and second opening 1102B at one is logical
Road 10016B;Second working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B formed one respectively with valve body 11B should
The 17th communicating passage 10017B that first opening 1101B is connected with the 8th opening 1108B;With in the third working condition
When, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B formed one respectively with first opening of valve body 11B
The tenth eight connectivity channel 10018B that 1101B is connected with the 8th opening 1108B.
As shown in Figure 61 to Figure 90 G of attached drawing, according to the fluid of the water treatment system of the utility model third preferred embodiment
Valve 10B is a flat valve, and wherein flat valve 10B further comprises a moving valve plate 13B and a fixed valve plate 12B, wherein
There is the fixed valve plate 12B first fluid control plane 120B, moving valve plate 13B to have a second fluid control plane 130B,
Wherein moving valve plate 13B and fixed valve plate 12B are arranged on inner cavity 110B, wherein the second fluid of moving valve plate 13B
Control plane 130B is arranged on the first fluid control plane 120B of fixed valve plate 12B, and be set can by moving valve plate 13B
It is rotated relative to fixed valve plate 12B, wherein there is the purification device 20 one first connection opening 201 to be connected to out with one second
Mouth 202, wherein the softening plant 30 includes a Softening box 31, and wherein the Softening box 31 has first lead-through opening 301
With second lead-through opening 302, wherein the inner cavity 110B of valve body 11B is connected with first opening 1101B, the purification
The first connection opening 201 of device 20 is connected with the 5th opening 1105B of valve body 11B, which is somebody's turn to do
First lead-through opening 301 of second connection opening 202 and the Softening box 31 with the 6th of valve body 11B opening 1106B
It is connected, second lead-through opening 302 of the Softening box 31 is connected with the 7th opening 1107B of valve body 11B.Therefore,
When fluid valve 10B is a flat valve, the spool 1B of fluid valve 10B includes moving valve plate 13B and the fixed valve plate
12B.Furthermore, it is to be understood that since the inner cavity 110B of the valve body 11B of flat valve 10B is connected with first opening 1101B
Logical, therefore, pending water is provided by the first opening 1101B and inner cavity 110B.
As shown in Figure 61 to Figure 90 G of attached drawing, according to the water treatment system of the utility model third preferred embodiment this be soft
It further comprises an ejector 32 and a brine tank 33 that makeup, which sets 30, and wherein there is the ejector 32 one to be suitable for and the valve
The exit wound of bullet 321 and the 4th opening being suitable for valve body 11B that the third opening 1103B of body 11B is connected
The entry portal 322 that 1104B is connected, wherein the brine tank 33 is suitable for being connected with the ejector 32, to make from the saline solution
The saline solution of case 33 can flow to the softening plant 30 by the ejector 32 and the 4th opening 1104B, and through flat valve 10B
The Softening box 31, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when the utility model water process system
When system inhales salt reproduction operation state in softening filter core, raw water or pending water first are open from this of valve body 11B
1101B is flowed into the inner cavity 110B of valve body 11B, then flows into third opening by an eight connectivity channel 1008B
1103B, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mix the liquid from the brine tank 33
The entry portal 322 after body through the ejector 32 flows into the 4th opening 1104B of valve body 11B, then passes through one the 9th
Communicating passage 1009B flows into the 7th opening 1107B, and into second lead-through opening 302 of the Softening box 31, counter-current regeneration should
Material for water treatment or mechanism in Softening box 31 flow out from first lead-through opening 301 after softening resin, then flow through this
A the tenth communicating passage 10010B is flowed into after the 6th opening 1106B of valve body 11B, then from one of flat valve 10B
9th opening 1109B outflow.Although being appreciated that the utility model exemplarily only describes to pass through ejector 32 to Softening box
31 provide saline solution mode, however, saline solution can also otherwise or mechanism is open by the 4th of flat valve 10B
1104B is provided to the Softening box 31.Therefore, this should not be become in such a way that ejector 32 provides saline solution to Softening box 31
The limitation of utility model.
It will be appreciated by those skilled in the art that the flat valve 10B of the utility model water treatment system can further have
One is arranged on the bindiny mechanism of valve body 11B, such as connection screw thread, snap fit connector, in order to flat valve 10B and the water
The other structures component of processing system, such as purification device, softening plant are connected, to guide water flow to flow to purification dress respectively
It sets, each communicating passage that the Softening box of softening plant and flat valve 10B are formed.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to being somebody's turn to do for the utility model third preferred embodiment
Water treatment system has first working condition, second working condition and a third working condition, wherein when the water
When processing system is in first working condition, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B forms one point
With valve body 11B this first opening 1101B and the 5th be open 1105B be connected the first communicating passage 1001B, one
A the second communicating passage 1002B being connected respectively with the second opening 1102B of valve body 11B and the 7th opening 1107B
The third connecting channel being connected with the opening of 1106B and the 8th 1108B that is open respectively with the 6th of valve body 11B the
1003B, when the water treatment system is in second working condition, the moving valve plate 13B and the fixed valve plate of flat valve 10B
12B forms the 4th connection being connected respectively with the first opening 1101B of valve body 11B and the 7th opening 1107B
The channel 1004B and 1109B that is open respectively with the 9th of the 6th opening 1106B and flat valve 10B of valve body 11B the
The 5th communicating passage 1005B being connected, when the water treatment system is in the third working condition, flat valve 10B's should
Moving valve plate 13B and fixed valve plate 12B forms one and is open respectively with the first opening 1101B and the 6th of valve body 11B
The 6th communicating passage 1006B and be open respectively with the 5th of valve body 11B the 1105B and the plane that 1106B is connected
The 7th communicating passage 1007B that the 9th opening 1109B of valve 10B is connected.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in first working condition, flat valve 10B formed first communicating passage 1001B respectively with the valve
Body 11B this first opening 1101B and the 5th be open 1105B be connected, second communicating passage 1002B respectively with the valve
Body 11B this second opening 1102B and the 7th be open 1107B be connected, third connecting channel 1003B respectively with the valve body
The 1108B that is open of the 6th opening 1106B of 11B and the 8th is connected, so that raw water be allowed first to open from this of valve body 11B
Mouth 1101B is flowed into the inner cavity 110B of valve body 11B, first communicating passage then formed by flat valve 10B
1001B, valve body 11B the 5th opening 1105B, the purification device 20 this first connection opening 201 flow into the purification dress
20 are set, the second connection opening of the water purification that raw water obtains after 20 purified treatment of purification device from the purification device 20
202 outflows, then water purification is divided into two-way, wherein first lead-through opening 301 that water purification flows through the Softening box 31 all the way is flowed into and is somebody's turn to do
Softening box 31, and softened water is obtained after softened processing, softened water is flowed out from second lead-through opening 302 of the Softening box 31,
Then second communicating passage 1002B of the 7th opening 1107B through valve body 11B, flat valve 10B, most afterwards through the valve
Second opening 1102B of body 11B flows out and supplies softened water to user, and another way water purification flows through the 6th of valve body 11B
The third connecting channel 1003B of opening 1106B, flat valve 10B, most the 8th opening 1108B through valve body 11B flows afterwards
Supply water purification out and to user.Therefore, when the water treatment system is in first working condition, the utility model water process system
System can provide water purification and softened water to user simultaneously.Correspondingly, first working condition of the water treatment system, which corresponds to, is somebody's turn to do
The purification of water treatment system-softening working condition.Therefore, when the water treatment system is in first working condition, the valve body
First opening 1101B (or the inner cavity 110B of valve body 11B) of 11B, valve body 11B the 5th opening 1105B, this is net
Makeup set 20 this first connection opening 201, the purification device 20 this second connection opening 202, the softening plant 30 should
Second lead-through opening 302, valve of first lead-through opening 301 of Softening box 31, the Softening box 31 of the softening plant 30
Second opening 1102B of the 7th opening 1107B and valve body 11B of body 11B is sequentially communicated, so that forming one should
The water-flowing path that purification device 20 and the softening plant 30 are cascaded is somebody's turn to do so that raw water can be flowed to from the purification device 20
Softening plant 30 and it is cleaned raw water successively and sofening treatment.Meanwhile the 6th the opening 1106B, the plane of valve body 11B
The 8th opening 1108B of the third connecting channel 1003B and valve body 11B of valve 10B form a water purification and supply branch (water
Road), to provide water purification to user.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in second working condition, flat valve 10B formed the 4th communicating passage 1004B respectively with the valve
Body 11B this first opening 1101B and the 7th be open 1107B be connected, the 5th communicating passage 1005B respectively with the valve
The 9th opening 1109B of the 6th opening 1106B and flat valve 10B of body 11B are connected, to allow raw water from the valve
First opening 1101B of body 11B is flowed into the inner cavity 110B of valve body 11B, is then somebody's turn to do by what flat valve 10B was formed
4th communicating passage 1004B flows into the 7th opening 1107B, then second lead-through opening 302 through the Softening box 31 is flowed into and is somebody's turn to do
Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softening resin, after back flush, obtain
The sewage or waste water arrived is flowed out from first lead-through opening 301 of the Softening box 31, and then flow through valve body 11B the 6th opens
Mouth 1106B flows into the 5th communicating passage 1005B of flat valve 10B, then from the 9th opening of flat valve 10B
1109B outflow.In other words, when the water treatment system is in second working condition, the utility model water treatment system can
Control carries out back flush to softening filter core, such as Softening box 31.Correspondingly, second working condition of the water treatment system is corresponding
In softening filter core (softening plant) backwash working condition of the water treatment system.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in the third working condition, flat valve 10B formed the 6th communicating passage 1006B respectively with the valve
Body 11B this first opening 1101B and the 6th be open 1106B be connected, the 7th communicating passage 1007B respectively with the valve
The 9th opening 1109B of the 5th opening 1105B and flat valve 10B of body 11B are connected, to allow raw water from the valve
First opening 1101B of body 11B is flowed into the inner cavity 110B of valve body 11B, then passes through the 6th communicating passage 1006B
The 6th opening 1106B is flowed into, the second connection opening 202 of the purification device 20 is entered back into, in the purification device 20
After material for water treatment or mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, this is then flowed through
The 5th opening 1105B of valve body 11B flows into the 7th communicating passage 1007B, then from the 9th opening of flat valve 10B
1109B outflow;Correspondingly, the third working condition of the water treatment system corresponds to the purification device backwash of the water treatment system
Working condition.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to the water of the utility model third preferred embodiment
Processing system further has the 4th working condition and the 5th working condition, when the water treatment system is in the 4th
When working condition, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B formed one respectively with valve body 11B this
One opening 1101B and the third be open eight connectivity channel 1008B that 1103B is connected, one respectively with valve body 11B's
7th opening 1107B and the 4th be open the 9th communicating passage 1009B that is connected of 1104B and one respectively with the valve body
The tenth communicating passage 10010B that the 9th opening 1109B of the 6th opening 1106B and flat valve 10B of 11B are connected;
When the water treatment system is in five working conditions, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B is formed
One the 11st communicating passage being connected respectively with the first opening 1101B of valve body 11B and the 6th opening 1106B
10011B and 1109B phase that is open respectively with the 9th of the 7th opening 1107B and flat valve 10B of valve body 11B the
12nd communicating passage 10012B of connection.
When the water treatment system according to the utility model third preferred embodiment is in four working conditions, the flat valve
10B formed eight connectivity channel 1008B respectively with valve body 11B this first opening 1101B and the third opening 1103B
It is connected, the 9th communicating passage 1009B is open with the 7th of valve body 11B opening 1107B and the 4th 1104B phase respectively
Connection, the tenth communicating passage 10010B respectively with the 6th of valve body 11B opening 1106B and flat valve 10B this
Nine opening 1109B are connected, so that raw water be allowed to be flowed into being somebody's turn to do for valve body 11B from first opening 1101B of valve body 11B
Then inner cavity 110B flows into third opening 1103B by eight connectivity channel 1008B, then flows into being somebody's turn to do for the ejector 32
Exit wound of bullet 321 mixes entry portal through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
322 flow into the 4th opening 1104B of valve body 11B, then flow into the 7th opening by the 9th communicating passage 1009B
1107B, into second lead-through opening 302 of the Softening box 31, after the softening resin in the counter-current regeneration Softening box 31, from this
The outflow of first lead-through opening 301, the 6th opening 1106B for then flowing through valve body 11B flow into the tenth communicating passage
10010B, then from the 9th opening 1109B outflow of flat valve 10B.Correspondingly, the 4th work of the water treatment system
State corresponds to softening filter core (softening plant) reproduction operation state of the water treatment system.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in five working conditions, flat valve 10B formed the 11st communicating passage 10011B respectively with
The first opening 1101B of valve body 11B is connected with the 6th opening 1106B, the 12nd communicating passage 10012B difference
It is connected with the 9th opening 1109B of the 7th opening 1107B and flat valve 10B of valve body 11B, to allow original
Water is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then connects by the 11st
Circulation passage 10011B flows into the 6th opening 1106B, first lead-through opening 301 of the Softening box 31 is entered back into, to the softening
After material for water treatment or mechanism forward direction in case 31 rinse, flows out from second lead-through opening 302 of the Softening box 31, then flow
The 7th opening 1107B through valve body 11B flows into the 12nd communicating passage 10012B, then being somebody's turn to do from flat valve 10B
9th opening 1109B outflow.In other words, when the water treatment system is in five working conditions, at the utility model water
Reason system is controllable to softening filter core, as Softening box 31 carries out positive flushing.Correspondingly, the 5th work of the water treatment system
The softening filter core (softening plant) that state corresponds to the water treatment system just washes working condition.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to the water of the utility model third preferred embodiment
Processing system further has the 6th working condition and the 7th working condition, when the water treatment system is in the 6th
When working condition, the moving valve plate 13B and fixed valve plate 12B of flat valve 10B formed one respectively with valve body 11B this
One opening 1101B and the 5th be open the tenth tee joint channel 10013B that is connected of 1105B and one respectively with the valve body
The 14th communicating passage that the 9th opening 1109B of the 6th opening 1106B and flat valve 10B of 11B are connected
10014B;When the water treatment system is in seven working conditions, the moving valve plate 13B and the fixed valve plate of flat valve 10B
12B forms the 15th company being connected respectively with the first opening 1101B of valve body 11B and the 4th opening 1104B
Circulation passage 10015B.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in six working conditions, flat valve 10B formed the tenth tee joint channel 10013B respectively with
The first opening 1101B of valve body 11B is connected with the 5th opening 1105B, the 14th communicating passage 10014B difference
It is connected with the 9th opening 1109B of the 6th opening 1106B and flat valve 10B of valve body 11B, to allow original
Water is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then connects by the 13rd
Circulation passage 10013B flows into the 5th opening 1105B, enters back into the first connection opening 201 of the purification device 20, net to this
After material for water treatment or the flushing of mechanism forward direction in 20 are set in makeup, flowed out from the second connection opening 202 of the purification device 20,
The 6th opening 1106B for then flowing through valve body 11B flows into the 14th communicating passage 10014B, then from the flat valve
The 9th opening 1109B outflow of 10B.In other words, when the water treatment system is in six working conditions, this is practical new
Type water treatment system is controllable to carry out positive flushing to purification device 20.Correspondingly, the 6th work shape of the water treatment system
The purification device that state corresponds to the water treatment system just washes working condition.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
When water treatment system is in seven working conditions, flat valve 10B formed the 15th communicating passage 10015B respectively with
The first opening 1101B of valve body 11B is connected with the 4th opening 1104B, to allow raw water being somebody's turn to do from valve body 11B
First opening 1101B is flowed into the inner cavity 110B of valve body 11B, and then being flowed by the 15th communicating passage 10015B should
4th opening 1104B, then the entry portal 322 of the ejector 32 is flowed into, to 33 moisturizing of brine tank.In other words, at the water
When reason system is in seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Correspondingly, should
7th working condition of water treatment system corresponds to the brine tank moisturizing working condition of the water treatment system.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, further, when preferable according to the utility model third
The water treatment system of embodiment is in second working condition, the third working condition, the 4th working condition, the 5th work
When state, the 6th working condition and seven working conditions, the moving valve plate 13B and fixed valve plate 12B shape of flat valve 10B
The 16th connection being connected respectively with the first opening 1101B of valve body 11B and second opening 1102B at one is logical
Road 10016B, so that when the water treatment system is in second working condition, the third working condition, the 4th work shape
When state, the 5th working condition, the 6th working condition and seven working conditions, allow raw water from valve body 11B this
One opening 1101B is flowed into the inner cavity 110B of valve body 11B, and then being flowed by the 16th communicating passage 10016B should
Valve body 11B this second opening 1102B, and second working condition, the third working condition, the 4th working condition, should
5th working condition, the 6th working condition and the 7th working condition provide raw water to user.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, when according to the utility model third preferred embodiment
Water treatment system is in second working condition, the 4th working condition, the 5th working condition, the 6th working condition and is somebody's turn to do
When seven working conditions, the 17th communicating passage of moving valve plate 13B and the fixed valve plate 12B formation of flat valve 10B
10017B allows raw water to be flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then leads to
Cross the 17th communicating passage 10017B flow into valve body 11B the 8th opening 1108B, thus second working condition,
4th working condition, the 5th working condition, the 6th working condition and the 7th working condition provide raw water to user.
Further, when the water treatment system according to the utility model third preferred embodiment is in the third working condition, this is flat
The tenth eight connectivity channel 10018B that the moving valve plate 13B and fixed valve plate 12B of face valve 10B is formed allows raw water from the valve body
First opening 1101B of 11B is flowed into the inner cavity 110B of valve body 11B, then passes through the tenth eight connectivity channel
10018B flows into the 8th opening 1108B of valve body 11B, to provide raw water to user in the third working condition.
Correspondingly, as shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, preferably implement according to the utility model third
The fluid valve (or flat valve) 10B of the water treatment system of example has first working position, second working position, one the
Three working positions, the 4th working position, the 5th working position, the 6th working position and the 7th working position, wherein when
When fluid valve (or the flat valve) 10B is in first working position, the spool 1B of fluid valve 10B (moving valve plate 13B and
The fixed valve plate 12B) first communicating passage 1001B, the second communicating passage 1002B and third connecting channel 1003B are formed,
When fluid valve (or the flat valve) 10B is in second working position, the spool 1B of fluid valve 10B forms the 4th connection
Channel 1004B and the 5th communicating passage 1005B, when fluid valve (or the flat valve) 10B is in the third working position, the stream
The spool 1B of body valve 10B forms the 6th communicating passage 1006B and the 7th communicating passage 1007B;Preferably, when the stream
When body valve (or flat valve) 10B is in four working positions, the spool 1B of fluid valve 10B forms the eight connectivity channel
1008B, the 9th communicating passage 1009B and the tenth communicating passage 10010B;When fluid valve (or the flat valve) 10B is in this
When five working positions, the spool 1B of fluid valve 10B, which forms the 11st communicating passage 10011B and is connected to the 12nd, to be led to
Road 10012B;It is highly preferred that when fluid valve (or the flat valve) 10B is in six working positions, the valve of fluid valve 10B
Core 1B forms the tenth tee joint channel 10013B and the 14th communicating passage 10014B;When the fluid valve (or flat valve)
When 10B is in seven working positions, the spool 1B of fluid valve 10B forms the 15th communicating passage 10015B.Further
Ground, when fluid valve (or the flat valve) 10B of the water treatment system according to the utility model third preferred embodiment be in this second
It, should when working position, the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions
The spool 1B of fluid valve 10B forms the 16th communicating passage 10016B.Further, when according to the utility model third compared with
Fluid valve (or the flat valve) 10B of the water treatment system of good embodiment be in second working position, the 4th working position, this
When five working positions, the 6th working position and seven working positions, it is logical that the spool 1B of fluid valve 10B forms the 17th connection
Road 10017B, when fluid valve (or the flat valve) 10B of the water treatment system according to the utility model third preferred embodiment is in
When the third working position, the spool 1B of fluid valve 10B forms the tenth eight connectivity channel 10018B.
As shown in Figure 75 A to Figure 75 F and Figure 77 A to Figure 78 G of attached drawing, according to the water of the utility model third preferred embodiment
The flat valve 10B of processing system has first passage a 101B, second channel 102B, a third channel 103B,
One fourth lane 104B, a Five-channel 105B, a 6th channel 106B, a 7th channel 107B, one the 8th
Channel 108B, a 9th channel 109B, a tenth channel 1010B, a 11st channel 1011B, the tenth two-way
Road 1012B and a tenth triple channel 1013B, wherein first passage 101B, second channel 102B, the third channel
103B, fourth lane 104B, the Five-channel 105B, the 6th channel 106B, the 7th channel 107B, the 8th channel
108B and the 12nd channel 1012B are respectively arranged on fixed valve plate 12B and respectively from the first fluid control of fixed valve plate 12B
Face 120B processed extends;9th channel 109B, the tenth channel 1010B, the 11st channel 1011B and the tenth triple channel
1013B is respectively arranged on moving valve plate 13B and extends respectively from the second fluid control plane 130B of moving valve plate 13B, wherein should
First passage 101B and second channel 102B is connected with the 5th opening 1105B respectively, third channel 103B and this
Four-way 104B is connected with the 7th opening 1107B respectively, which is connected with second opening 1102B,
6th channel 106B is connected with third opening 1103B, and the 7th channel 107B is connected with the 4th opening 1104B,
8th channel 108B is connected with the 6th opening 1106B, and the 12nd channel 1012B is connected with the 8th opening 1108B
Logical, the 9th channel 109B is connected with first opening 1101B of valve body 11B (by the inner cavity of valve body 11B
110B), the 11st channel 1011B is connected with the 9th opening 1109B.Preferably, the 9th opening 1109B is arranged on
The valve body 11B of flat valve 10B, and the 9th opening 1109B passes through a drain outlet 150B and the 11st channel
1011B is connected.Therefore, optionally, the 9th opening 1109B of flat valve 10B is formed in moving valve plate 13B, and this is flat
The 9th opening 1109B of face valve 10B is connected with the 11st channel 1011B and drain outlet 150B respectively.It can manage
Solution, the utility model purification device 20 this second connection opening 202 and the Softening box 31 first lead-through opening 301 and
The connection of the 6th opening 1106B of valve body 11B can be accomplished in several ways.As shown in Figure 66 B of attached drawing, the valve body
The 6th opening 1106B of 11B second can be connected to this of the purification device 20 respectively by one and be open 202 and the softening
The connecting pipeline (or triplate line) that first lead-through opening 301 of case 31 is connected realizes second company of the purification device 20
Open up the company between the 6th opening 1106B of mouth 202, first lead-through opening 301 of the Softening box 31 and valve body 11B
It is logical.Optionally, the purification device 20 this second connection opening 202 and the Softening box 31 first lead-through opening 301 and this
The connection of the 6th opening 1106B of valve body 11B can also be realized by being arranged on the communication paths of valve body 11B, wherein should
Communication paths can be set respectively with the purification device 20 this second be connected to opening 202 and valve body 11B the 6th be open
1106B is connected, and the 6th opening 1106B with first lead-through opening 301 of the Softening box 31 and valve body 11B respectively
It is connected.Therefore, the second connection opening 202 and the softening of the 8th channel 108B of valve body 11B, the purification device 20
First lead-through opening 301 of case 31 forms a three-port structure by the 6th opening 1106B of valve body 11B.In addition, being
Ensure that the water in the inner cavity 110B of valve body 11B enters the 9th channel 109B, the 9th channel 109B is set and can lead to
The water inlet 1091B being connected with an exterior space always holding is crossed to be connected with the inner cavity 110B of valve body 11B always.
It is worth noting that, the first passage 101B and second channel 102B of flat valve 10B are respectively with the 5th
The connection of opening 1105B can be and respectively and by oneself be connected with the 5th opening 1105B, can also pass through one and flow
Body channel is connected;The third channel 103B and fourth lane 104B of flat valve 10B respectively with the 7th opening 1107B
Connection, can be and be connected respectively and by oneself with the 7th opening 1107B, can also be connected by a fluid channel
It is logical.For example, as shown in Figure 61 to Figure 78 G of attached drawing, the first passage 101B and second channel 102B of flat valve 10B
It is connected by a first fluid channel 1211B, second channel 102B, which is set, to be directly connected with the 5th opening 1105B
It is logical, to make first passage 101B by the first fluid channel 1211B and second channel 102B, also opened with the 5th
Mouth 1105B is connected;The third channel 103B and fourth lane 104B of flat valve 10B is separately opened with the 7th
Mouth 1107B is connected.Optionally, as shown in Figure 79 of attached drawing and Figure 80, first passage 101B is set directly with the 5th
Opening 1105B is connected, second channel 102B by the first fluid channel 1211B and first passage 101B, also with this
5th opening 1105B is connected.Or optionally, the first passage 101B of flat valve 10B and second channel 102B can
Respectively and by oneself it is connected with the 5th opening 1105B;Or optionally, as shown in Figure 81 of attached drawing, flat valve 10B
Third channel 103B be connected with fourth lane 104B by a second fluid channel 1212B, the third channel
103B, which is set, to be directly connected with the 7th opening 1107B, so that fourth lane 104B be made to pass through the second fluid channel
1212B and third channel 103B is also connected with the 7th opening 1107B;Or optionally, as shown in Figure 82 of attached drawing,
The third channel 103B and fourth lane 104B of flat valve 10B is connected by a second fluid channel 1212B,
Fourth lane 104B, which is set, to be directly connected with the 7th opening 1107B, thus make third channel 103B by this
Two fluid channel 1212B and fourth lane 104B are also connected with the 7th opening 1107B.It is appreciated that further,
The first fluid channel 1211B and second fluid channel 1212B may be disposed at the first fluid control of fixed valve plate 12B
Face 120B also may be disposed at the inside of valve body 11B or fixed valve plate 12B.It is appreciated that flat valve 10B this first
Channel 101B and second channel 102B is logical with the third of the connection of the 5th opening 1105B and flat valve 10B respectively
The road 103B and fourth lane 104B connection with the 7th opening 1107B respectively, is also possible to connection otherwise.
As shown in Figure 78 A to Figure 78 G of attached drawing, according to the water treatment system of the utility model third preferred embodiment this be flat
The moving valve plate 13B of face valve 10B can be rotated relative to fixed valve plate 12B so that flat valve 10B has one first work
Position, second working position and a third working position, wherein when flat valve 10B is in first working position, the flat valve
The 9th channel 109B of 10B is connected with first passage 101B, the tenth channel 1010B respectively with third channel 103B
Be connected with the Five-channel 105B, the tenth triple channel 1013B respectively with the 8th channel 108B and the 12nd channel
1012B is connected;When flat valve 10B is in second working position, the 9th channel 109B of flat valve 10B and this
Four-way 104B is connected, and the 11st channel 1011B is connected with the 8th channel 108B;It is somebody's turn to do when flat valve 10B is in
When third working position, the 8th channel 108B of flat valve 10B is connected with the 9th channel 109B, flat valve 10B's
11st channel 1011B is connected with first passage 101B, the tenth channel 1010B of flat valve 10B respectively with this
8th channel 108B is connected with the 12nd channel 1012B.
As shown in Figure 78 A to Figure 78 G of attached drawing, according to the water treatment system of the utility model third preferred embodiment this be flat
Face valve 10B further has the 4th working position and the 5th working position, when flat valve 10B is in the 4th working position
When, the 9th channel 109B of flat valve 10B is connected with the 6th channel 106B, the tenth channel 1010B respectively with this
Fourth lane 104B is connected with the 7th channel 107B, and the 11st channel 1011B is connected with the 8th channel 108B;When
When flat valve 10B is in five working positions, the 9th channel 109B of flat valve 10B is connected with the 8th channel 108B
Logical, the 11st channel 1011B of flat valve 10B is connected with third channel 103B.
As shown in Figure 78 A to Figure 78 G of attached drawing, according to the water treatment system of the utility model third preferred embodiment this be flat
Face valve 10B further has the 6th working position and the 7th working position, when flat valve 10B is in the 6th work
When position, the 9th channel 109B of flat valve 10B is connected with second channel 102B, and the 11st of flat valve 10B the
Channel 1011B is connected with the 8th channel 108B;When flat valve 10B is in seven working positions, flat valve 10B
The 9th channel 109B be connected with the 7th channel 107B.
It is appreciated that when flat valve 10B is in first working position, according to the utility model third preferred embodiment
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109B and the first passage of flat valve 10B
101B is connected, thus formed first communicating passage 1001B, the tenth channel 1010B respectively with third channel 103B and
The Five-channel 105B is connected, to form second communicating passage 1002B, the tenth triple channel 1013B respectively with this
Eight channel 108B are connected with the 12nd channel 1012B, to form third connecting channel 1003B;When the flat valve
When 10B is in second working position, is controlled according to the water treatment system of the utility model third preferred embodiment and be in the softening
Filter core (softening plant) backwash working position, the 9th channel 109B of flat valve 10B are connected with fourth lane 104B, from
And the 4th communicating passage 1004B is formed, the 11st channel 1011B is connected with the 8th channel 108B, should to be formed
5th communicating passage 1005B;When flat valve 10B is in the third working position, according to the utility model third preferred embodiment
Water treatment system controlled and be in the purification device backwash working position, the 8th channel 108B of flat valve 10B and this
Nine channel 109B are connected, so that the 6th communicating passage 1006B is formed, the 11st channel 1011B and the first passage
101B is connected, to form the 7th communicating passage 1007B.Further, when flat valve 10B is in the 4th working position
When, it is controlled according to the water treatment system of the utility model third preferred embodiment and is in the softening filter core reproduction operation position, this is flat
The 9th channel 109B of face valve 10B is connected with the 6th channel 106B, so that eight connectivity channel 1008B is formed, it should
Tenth channel 1010B is connected with fourth lane 104B and the 7th channel 107B respectively, so that it is logical to form the 9th connection
Road 1009B, the 11st channel 1011B are connected with the 8th channel 108B, to form the tenth communicating passage 10010B;
When flat valve 10B is in five working positions, controlled according to the water treatment system of the utility model third preferred embodiment
It is in the softening filter core (softening plant) and just washes working position, the 9th channel 109B of flat valve 10B and the 8th channel
108B is connected, to form the 11st communicating passage 10011B, the 11st channel 1011B of flat valve 10B with should
Third channel 103B is connected, to form the 12nd communicating passage 10012B.Further, flat valve 10B is in
When six working positions, is controlled according to the water treatment system of the utility model third preferred embodiment and be in the purification device and just washing
When working position, the 9th channel 109B of flat valve 10B is connected with second channel 102B, to form the 13rd
The 11st channel 1011B of communicating passage 10013B, flat valve 10B are connected with the 8th channel 108B, to be formed
14th communicating passage 10014B;It is preferably real according to the utility model third when flat valve 10B is in seven working positions
The water treatment system for applying example, which is controlled, is in the brine tank moisturizing working position, the 9th channel 109B of flat valve 10B with should
7th channel 107B is connected, to form the 15th communicating passage 10015B.It is appreciated that the 11st channel 1011B
Can be the through-hole for being arranged on moving valve plate 13B, wherein the 11st channel 1011B from moving valve plate 13B this
Two fluid control plane 130B extend upwardly to its opposite another side, to arrange sewage or waste water upwards in corresponding working position
Out to drain outlet 150B.It is appreciated that when flat valve 10B is in first working position, flat valve 10B this
Ten channel 1010B are connected with third channel 103B and the Five-channel 105B respectively, and the dynamic valve of flat valve 10B
The inner cavity 110B of the Five-channel 105B and valve body 11B is spaced by piece 13B, to prevent the inner cavity of valve body 11B
Raw water in 110B enters the Five-channel 105B, and the tenth triple channel 1013B of flat valve 10B is logical with the 8th respectively
Road 108B is connected with the 12nd channel 1012B, and the moving valve plate 13B of flat valve 10B is by the 12nd channel 1012B
It is spaced with the inner cavity 110B of valve body 11B, the raw water in the 110B of the inner cavity to prevent valve body 11B enters the 12nd
Channel 1012B.
As shown in Figure 76 A to Figure 78 G of attached drawing, further, at the water according to the utility model third preferred embodiment
The flat valve 10B of reason system is in second working position, the third working position, the 4th working position, the 5th working position, is somebody's turn to do
When the 6th working position and seven working positions, the inner cavity 110B of the Five-channel 105B and valve body 11B of flat valve 10B
It is connected, to form the 16th communicating passage 10016B.Correspondingly, when the water according to the utility model third preferred embodiment
Processing system is in second working position, the third working position, the 4th working position, the 5th working position, the 6th working position
When with seven working positions, raw water is allowed to flow into the inner cavity of valve body 11B from first opening 1101B of valve body 11B
110B, and the valve body is further flowed to by the Five-channel 105B of fixed valve plate 12B from the inner cavity 110B of valve body 11B
Second opening 1102B of 11B.
As shown in Figure 76 A to Figure 78 G of attached drawing, further, at the water according to the utility model third preferred embodiment
The flat valve 10B of reason system be in second working position, the 4th working position, the 5th working position, the 6th working position and
When seven working positions, the inner cavity 110B of the 12nd channel 1012B and valve body 11B of flat valve 10B are connected, from
And form the 17th communicating passage 10017B.Correspondingly, when the water treatment system according to the utility model third preferred embodiment
When being in second working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, raw water
It is allowed to flow into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, and further from the valve body
The inner cavity 110B of 11B flows to the 8th opening of valve body 11B by the 12nd channel 1012B of fixed valve plate 12B
1108B.Further, when the flat valve 10B of the water treatment system according to the utility model third preferred embodiment is in this
When third working position, the 9th channel 109B of flat valve 10B is connected with the 8th channel 108B, the tenth channel
1010B is connected with the 8th channel 108B and the 12nd channel 1012B respectively, so that the 9th channel 109B and the tenth
Two channel 1012B are connected, to form the tenth eight connectivity channel 10018B.Correspondingly, when according to the utility model third compared with
When the water treatment system of good embodiment is in the third working position, raw water is allowed to first opening from valve body 11B
1101B is flowed into the inner cavity 110B of valve body 11B, and it is fixed then to flow into this by the 9th channel 109B of moving valve plate 13B
The 8th channel 108B of valve block 12B enters fixed valve plate 12B by the tenth channel 1010B water conservancy diversion of moving valve plate 13B
The 12nd channel 1012B, then flow to valve body 11B the 8th opening 1108B.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 78 G of attached drawing, correspondingly, when flat valve 10B is in the first work
When making position, which is in purification-softening working condition, and raw water is flowed into from first opening 1101B of valve body 11B
Then the inner cavity 110B of valve body 11B flows into being somebody's turn to do for fixed valve plate 12B by the 9th channel 109B of moving valve plate 13B
Then first passage 101B is opened by first connection that the 5th opening 1105B of valve body 11B enters the purification device 20
Mouth 201, after the material for water treatment of the purification device 20 or mechanism processing, second connection of water purification from the purification device 20
202 outflow of opening, then water purification is divided into two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, warp
After crossing the softening resin treatment in the Softening box 31, is flowed out from second lead-through opening 302 of the Softening box 31, then flow through this
The 7th opening 1107B of valve body 11B enters the third channel 103B of fixed valve plate 12B, by moving valve plate 13B this
Ten channel 1010B water conservancy diversion enter the Five-channel 105B of fixed valve plate 12B, then by second opening of valve body 11B
Water after 1102B supplies sofening treatment to user, the 6th opening 1106B that another way water purification flows through valve body 11B are fixed into this
The 8th channel 108B of valve block 12B enters fixed valve plate 12B by the tenth triple channel 1013B water conservancy diversion of moving valve plate 13B
The 12nd channel 1012B, most afterwards through valve body 11B the 8th opening 1108B outflow and to user supply water purification;When this
When flat valve 10B is in the second working position, which is in softening filter core (softening plant) the backwash working condition, raw water
It is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then passes through moving valve plate 13B's
9th channel 109B flows into the fourth lane 104B of fixed valve plate 12B, then passes through the 7th opening of valve body 11B
1107B enters second lead-through opening 302 of the Softening box 31, after the softening resin back flush in the Softening box 31, from
First lead-through opening 301 of the Softening box 31 flows out, and then flows through the 6th opening 1106B of valve body 11B, passes through this
The 11st channel 1011B of the 8th channel 108B and moving valve plate 13B of fixed valve plate 12B, then from flat valve 10B's
9th opening 1109B outflow;When flat valve 10B is in third working position, which is in purification device backwash
Working condition, raw water are flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then pass through
The 9th channel 109B of moving valve plate 13B flows into the 8th channel 108B of fixed valve plate 12B, then passes through valve body 11B
The 6th opening 1106B enter the purification device 20 this second connection opening 202, to the water process in the purification device 20
After material or mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, valve body 11B is then flowed through
The 5th opening 1105B into the first passage 101B of fixed valve plate 12B pass through the 11st of moving valve plate 13B
Nineth opening 1109B outflow of the channel 1011B from flat valve 10B.Further, when flat valve 10B is in the 4th work
When making position, which is in the softening filter core reproduction operation state, first opening 1101B of the raw water from valve body 11B
It is flowed into the inner cavity 110B of valve body 11B, the fixed valve plate is then flowed by the 9th channel 109B of moving valve plate 13B
Then the 6th channel 106B of 12B flows into the injection of the ejector 32 by the third opening 1103B of valve body 11B
Mouth 321 mixes entry portal 322 through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
The 4th opening 1104B for flowing into valve body 11B, subsequently into the 7th channel 107B of fixed valve plate 12B, using dynamic
The tenth channel 1010B water conservancy diversion of valve block 13B enters the fourth lane 104B of fixed valve plate 12B, then flows through the valve body
The 7th opening 1107B of 11B enters second lead-through opening 302 of the Softening box 31, in the counter-current regeneration Softening box 31
It after such as softening resin, is flowed out from first lead-through opening 301, the 6th opening 1106B for then flowing through valve body 11B, which enters, to be somebody's turn to do
The 8th channel 108B of fixed valve plate 12B, then pass through the 11st channel 1011B of moving valve plate 13B, from flat valve 10B
The 9th opening 1109B outflow;When flat valve 10B is in five working positions, which is in the softening filter core
(softening plant) just washes working condition, raw water from first opening 1101B of valve body 11B be flowed into valve body 11B this is interior
Then chamber 110B flows into the 8th channel 108B of fixed valve plate 12B, so by the 9th channel 109B of moving valve plate 13B
First lead-through opening 301 for entering the Softening box 31 by the 6th opening 1106B of valve body 11B afterwards, to the Softening box
After softening resin forward direction in 31 is rinsed, is flowed out from second lead-through opening 302 of the Softening box 31, then flow through the valve body
The 7th opening 1107B of 11B, passes through the 11st of the third channel 103B and moving valve plate 13B of fixed valve plate 12B
Channel 1011B, then the 9th opening 1109B outflow from flat valve 10B.Further, when flat valve 10B is in
When six working positions, which is in the purification device and just washes working condition, first opening of raw water from valve body 11B
1101B is flowed into the inner cavity 110B of valve body 11B, and it is fixed then to flow into this by the 9th channel 109B of moving valve plate 13B
Then the second channel 102B of valve block 12B enters the purification device 20 by the 5th opening 1105B of valve body 11B
This first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification device 20
This second connection opening 202 outflow, then flow through valve body 11B the 6th opening 1106B, into fixed valve plate 12B's
8th channel 108B passes through the 11st channel 1011B of moving valve plate 13B from the 9th opening of flat valve 10B
1109B outflow;When flat valve 10B is in seven working positions, which is in the brine tank moisturizing working condition, former
Water is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then passes through moving valve plate 13B
The 9th channel 109B flow into the 7th channel 107B of fixed valve plate 12B, then flow through the 4th opening of valve body 11B
1104B flows into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.Therefore, practical new according to this in each working position
The inner cavity 110B of the flat valve 10B of the water treatment system of type third preferred embodiment respectively with this first opening 1101B and
9th channel 109B is connected, so that first opening 1101B of flat valve 10B can pass through inner cavity 110B
It is connected with the 9th channel 109B, and realizes pending water in the different traffic organisings of each working position.In addition, practical according to this
The 9th opening 1109B of the flat valve 10B of the water treatment system of novel third preferred embodiment is open as blowdown, directly
Or the 11st channel 1011B of indirect communication flat valve 10B, it may be formed at the valve body 11B of flat valve 10B, it can also
It is formed in a drain outlet.
As shown in Figure 78 A to Figure 78 G of attached drawing, it is preferable that when flat valve 10B is in the first working position, the plane
The second channel 102B and fourth lane 104B of valve 10B is closed by moving valve plate 13B respectively;When flat valve 10B is in
When the second working position, the first passage 101B and third channel 103B of flat valve 10B is sealed by moving valve plate 13B respectively
It closes;When flat valve 10B is in third working position, the second channel 102B and third channel 103B of flat valve 10B
It is closed respectively by moving valve plate 13B;When flat valve 10B is in four working positions, the first passage of flat valve 10B
101B, second channel 102B and third channel 103B are closed by moving valve plate 13B respectively;When flat valve 10B is in the 5th
When working position, the second channel 102B and fourth lane 104B of flat valve 10B is closed by moving valve plate 13B respectively;When
When flat valve 10B is in six working positions, first passage 101B, the third channel 103B of flat valve 10B and this
Four-way 104B is closed by moving valve plate 13B respectively;When flat valve 10B is in seven working positions, flat valve 10B's should
6th channel 106B is closed by moving valve plate 13B.
As shown in Figure 78 A to Figure 78 G of attached drawing, it is highly preferred that this is flat when flat valve 10B is in the first working position
The 6th channel 106B and the 7th channel 107B of face valve 10B is closed by moving valve plate 13B, the 11st channel 1011B quilt
Fixed valve plate 12B closing;When flat valve 10B is in the second working position, the 7th channel 107B of flat valve 10B is by this
Moving valve plate 13B closing, the tenth triple channel 1013B are connected with the 6th channel 106B, the tenth channel of flat valve 10B
1010B is connected with second channel 102B and the 8th channel 108B respectively;When flat valve 10B is in third working position
When, the 6th channel 106B and the 7th channel 107B of flat valve 10B is closed by moving valve plate 13B respectively, the flat valve
The tenth triple channel 1013B of 10B is connected with fourth lane 104B;When flat valve 10B is in four working positions,
The tenth triple channel 1013B of flat valve 10B is connected with the Five-channel 105B;When flat valve 10B is in the 5th work
When making position, the 6th channel 106B and the 7th channel 107B of flat valve 10B is closed by moving valve plate 13B respectively, this is flat
The tenth triple channel 1013B of face valve 10B is connected with the 8th channel 108B, the tenth channel of flat valve 10B
1010B is connected with the 8th channel 108B and first passage 101B respectively;When flat valve 10B is in the 6th working position
When, the 6th channel 106B of flat valve 10B is closed by moving valve plate 13B, the tenth channel 1010B of flat valve 10B
It is connected with the 8th channel 108B, the tenth triple channel 1013B of flat valve 10B is connected with the 7th channel 107B;
When flat valve 10B is in seven working positions, the first passage 101B and the 8th channel 108B of flat valve 10B distinguishes
By moving valve plate 13B close, the tenth channel 1010B of flat valve 10B respectively with second channel 102B and the four-way
Road 104B is connected, the tenth triple channel 1013B of flat valve 10B respectively with third channel 103B and the Five-channel
105B is connected.
It is worth noting that the first passage 101B of flat valve 10B, second channel 102B, the third channel
103B, fourth lane 104B, the Five-channel 105B, the 6th channel 106B, the 7th channel 107B, the 8th channel
108B and the 12nd channel 1012B is set to the first fluid control plane 120B of fixed valve plate 12B with being spaced respectively;This
Nine channel 109B, the tenth channel 1010B, the 11st channel 1011B and the tenth triple channel 1013B are spaced ground respectively
Set on the second fluid control plane 130B of moving valve plate 13B.In other words, the first passage 101B of flat valve 10B, should
Second channel 102B, third channel 103B, fourth lane 104B, the Five-channel 105B, the 6th channel 106B, this
Seven channel 107B, the 8th channel 108B and the 12nd channel 1012B are respectively formed one and are arranged on fixed valve plate 12B's
The access portal of first fluid control plane 120B, the 9th channel 109B, the tenth channel 1010B, the 11st channel
1011B and the tenth triple channel 1013B are respectively formed the second fluid control plane 130B for being arranged on moving valve plate 13B
Access portal, when (this is first-class on opposite for the moving valve plate 13B quilt cover (second fluid control plane 130B) of flat valve 10B
Body control plane 120B) setting, and moving valve plate 13B with respect to fixed valve plate 12B rotate when, be arranged on moving valve plate 13B lead to
Road and the channel for being arranged on fixed valve plate 12B be selectively connectable by corresponding access portal it is logical, to be formed accordingly
The flow direction of communicating passage and control fluid (such as water flow).
It is appreciated that the first passage 101B of flat valve 10B, second channel 102B, third channel 103B, is somebody's turn to do
Fourth lane 104B, the Five-channel 105B, the 6th channel 106B, the 7th channel 107B, the 8th channel 108B, this
Nine channel 109B, the tenth channel 1010B, the 11st channel 1011B, the 12nd channel 1012B and the tenth triple channel
1013B can have any extension path (or direction) that can be realized interconnected relationship herein;Flat valve 10B this
One channel 101B, second channel 102B, third channel 103B, fourth lane 104B, the Five-channel 105B, this
Six channel 106B, the 7th channel 107B, the 8th channel 108B and the 12nd channel 1012B are respectively formed at the fixed valve plate
The access portal and the 9th channel 109B, the tenth channel 1010B, the 11st of the first fluid control plane 120B of 12B
Channel 1011B and the tenth triple channel 1013B is respectively formed at the channel of the second fluid control plane 130B of moving valve plate 13B
Opening can have any shape that can be realized interconnected relationship herein.Determine for example, the 8th channel 108B is formed in this
The access portal of the first fluid control plane 120B of valve block 12B can be provided having a regular shape, can also be arranged to
With an irregular shape.Therefore, the first passage 101B of flat valve 10B, second channel 102B, the third channel
103B, fourth lane 104B, the Five-channel 105B, the 6th channel 106B, the 7th channel 107B, the 8th channel
108B, the 9th channel 109B, the tenth channel 1010B, the 11st channel 1011B, the 12nd channel 1012B and this
The extension path (or direction) of ten triple channel 1013B and the shape of its access portal should not become limitations of the present invention.
As shown in Figure 68 A to Figure 78 G of attached drawing, it is preferable that channel herein is closed, and refers to that respective channel is formed
In the second fluid control plane of the first fluid control plane 120B and moving valve plate 13B of the fixed valve plate 12B of flat valve 10B
The access portal of 130B is in the specific works position (or working condition of water treatment system) of flat valve 10B, by moving valve plate 13B
It covers with the entity part of fixed valve plate 12B, can not be connected by access portal so as to cause between respective channel.For example,
When flat valve 10B is in the first working position, the 6th of the entity part face of moving valve plate 13B flat valve 10B is logical
Road 106B and the 7th channel 107B is formed in the access portal of the first fluid control plane 120B of fixed valve plate 12B, to make
The 6th channel 106B and the 7th channel 107B of flat valve 10B closes (or obstruction) by moving valve plate 13B, this determines valve
The 11st channel 1011B of the entity part face of piece 12B flat valve 10B is formed in the second fluid of moving valve plate 13B
The access portal of control plane 130B, so that the 11st channel 1011B of flat valve 10B be made to be closed by the fixed valve plate 12.Phase
Ying Di is arranged on being connected between the channel of moving valve plate 13B and the channel for being arranged on fixed valve plate 12B herein, refers to
Be to be arranged on the logical of moving valve plate 13B in the specific works position (or working condition of water treatment system) of flat valve 10B
Road is formed in the access portal of the second fluid control plane 130B of moving valve plate 13B and is arranged on the logical of fixed valve plate 12B
The access portal that road forms the first fluid control plane 120B of fixed valve plate 12B, which selectively partially or is just aligned and is formed, to be permitted
Perhaps the water-flowing path that water flow passes through.For example, the 9th of flat valve 10B is logical when flat valve 10B is in the first working position
Road 109B aligns with first passage 101B, to both make first communicating passage 1001B that is connected and formed, this
Ten channel 1010B align with third channel 103B and the Five-channel 105B respectively, so that the two be made to be connected and be formed
Second communicating passage 1002B, the tenth triple channel 1013B respectively with the 8th channel 108B and the 12nd channel 1012B
It aligns, to both make the third connecting channel 1003B that is connected and formed.
As shown in Figure 75 A to Figure 75 F and Figure 77 A to Figure 78 G of attached drawing, according to the water of the utility model third preferred embodiment
First passage 101B, the 8th channel 108B, the second channel 102B, the four-way of the flat valve 10B of processing system
Road 104B, the 7th channel 107B, the 6th channel 106B, third channel 103B and the Five-channel 105B are sequentially suitable with this
Hour hands it is arranged in fixed valve plate 12B;The 11st channel 1011B, the tenth channel 1010B, the 9th of flat valve 10B
Channel 109B and the tenth triple channel 1013B is deasil arranged in moving valve plate 13B with this sequence.Optionally, the flat valve
First passage 101B, the 8th channel 108B, second channel 102B, the fourth lane 104B, the 7th channel of 10B
107B, the 6th channel 106B, third channel 103B and the Five-channel 105B, which are widdershins arranged in this with this sequence, to be determined
Valve block 12B;The 11st channel 1011B of flat valve 10B, the tenth channel 1010B, the 9th channel 109B and this
Ten triple channel 1013B are widdershins arranged in moving valve plate 13B with this sequence.
As shown in Figure 77 A to Figure 77 D of attached drawing, according to the water treatment system of the utility model third preferred embodiment this be flat
The fixed valve plate 12B of face valve 10B has that a first central part 121B, one from first central part 121B outwardly extending the
One extension 122B and one have from the outwardly extending first edge portion 123B of first extension 122B, moving valve plate 13B
One the second central part 131B, one from the outwardly extending second extension 132B of second central part 131B and one from this
The outwardly extending second edge portion 133B of two extension 132B, wherein the first fluid control plane 120B of fixed valve plate 12B has
There is central part 1200B shown in a figure chain lines, wherein central part 1200B is located at being somebody's turn to do for fixed valve plate 12B
First central part 121B, and the part except the central part 1200B of first fluid control plane 120B is by equal part clockwise
For a first part 1201B, a second part 1202B shown in chain-dotted line, a Part III 1203B, one the 4th
Part 1204B, a Part V 1205B, a Part VI 1206B, a Part VII 1207B, a Part VIII
1208B, a Part IX 1209B, a Part X 12010B and a tenth a part of 12011B;Flat valve 10B
The second fluid control plane 130B of moving valve plate 13B there is central area 1300B shown in figure chain lines, wherein
Central area 1300B be set to moving valve plate 13B second central part 131B, and second fluid control plane 130B this in
Part except the 1300B of heart district domain is divided into a first area 1301B, a second area shown in chain-dotted line clockwise
1302B, a third region 1303B, a fourth region 1304B, a 5th region 1305B, the 6th region
1306B, a District 7 domain 1307B, a Section Eight domain 1308B, a 9th region 1309B, the tenth region
13010B and the 11st region 13011B;Wherein first passage 101B from first fluid control plane 120B this first
Part 1201B is extended downwardly;This second from the first fluid control plane 120B of fixed valve plate 12B of 8th channel 108B
1202B, Part III 1203B, Part IV 1204B and Part V 1205B is divided to extend downwardly;The second channel
The Part VI 1206B of 102B from the first fluid control plane 120B of fixed valve plate 12B are extended downwardly;The fourth lane
The Part VII 1207B of 104B from the first fluid control plane 120B of fixed valve plate 12B are extended downwardly;7th channel
The Part VIII 1208B of 107B from first fluid control plane 120B are extended downwardly;6th channel 106B is first-class from this
The Part IX 1209B of body control plane 120B is extended downwardly;Third channel 103B is from first fluid control plane 120B's
Part X 12010B is extended downwardly;The Part X of the Five-channel 105B from first fluid control plane 120B
12010B and the tenth a part of 12011B are extended downwardly;12nd channel 1012B is from first fluid control plane 120B's
Part III 1203B is extended downwardly;First area 1301B of the 9th channel 109B from second fluid control plane 130B
It upwardly extends;Tenth triple channel 1013B is upwardly extended from the third region 1303B of second fluid control plane 130B;It should
11st channel 1011B is upwardly extended from the Section Eight domain 1308B of second fluid control plane 130B;Tenth channel
The tenth region 13010B and the 11st region 13011B of 1010B from second fluid control plane 130B are upwardly extended.
It is appreciated that when the second fluid control plane 130B of moving valve plate 13B be arranged on fixed valve plate 12B this
When one fluid control plane 120B, the second central part 131B face of the second fluid control plane 130B of moving valve plate 13B should
The second fluid of first central part 121B, moving valve plate 13B of the first fluid control plane 120B of fixed valve plate 12B control
First extension of the first fluid control plane 120B of the second extension 132B face fixed valve plate 12B of face 130B
Second edge portion 133B face fixed valve plate 12B of the second fluid control plane 130B of 122B, moving valve plate 13B this
The first edge portion 123B of one fluid control plane 120B.
Optionally, the first fluid control plane 120B and moving valve plate 13B of the fixed valve plate 12B of flat valve 10B this second
Fluid control plane 130B is circle, first passage 101B, second channel 102B, third channel 103B, the four-way
Road 104B, the Five-channel 105B, the 6th channel 106B, the 7th channel 107B, the 8th channel 108B and the 12nd
Channel 1012B is radially set to the first fluid control plane 120B of fixed valve plate 12B, and the 9th channel 109B, this
Ten channel 1010B and the tenth triple channel 1013B are radially set to the second fluid control plane 130B of moving valve plate 13B.
Preferably, the first passage 101B of flat valve 10B, second channel 102B, third channel 103B, this
Four-way 104B, the 6th channel 106B, the 7th channel 107B and the 8th channel 108B are respectively set at the fixed valve plate
First extension 122B, the Five-channel 105B of the first fluid control plane 120B of 12B is arranged on the first fluid
The first edge portion 123B, the 12nd channel 1012B of control plane 120B is arranged on first fluid control plane 120B's
First edge portion 123B.It is highly preferred that the Five-channel 105B be arranged on first fluid control plane 120B this first
Edge part 123B simultaneously extends inwardly to first fluid control from the first edge portion 123B of first fluid control plane 120B
First extension 122B of face 120B.
Preferably, the 9th channel 109B and the 11st channel 1011B of flat valve 10BA is respectively set at this
Second extension 132B, the tenth channel 1010B and the 13rd of the second fluid control plane 130B of moving valve plate 13B
Channel 1013B be respectively set at the second fluid control plane 130B of moving valve plate 13B the second edge portion 133B and from
Second edge portion 133B extends inwardly to second extension 132B.
Preferably, first fluid control plane 120B of the first passage 101B of flat valve 10B from fixed valve plate 12B
It extends downwardly and outwardly, second channel 102B downwardly and outwardly prolongs from the first fluid control plane 120B of fixed valve plate 12B
It stretches, third channel 103B is extended downwardly and outwardly from the first fluid control plane 120B of fixed valve plate 12B, the four-way
Road 104B extends downwardly and outwardly from the first fluid control plane 120B of fixed valve plate 12B, the Five-channel 105B from this determines valve
The first fluid control plane 120B of piece 12B extends downwardly and outwardly, the 6th channel 106B is from the first fluid of fixed valve plate 12B
Control plane 120B is extended downwardly and outwardly, the first fluid control plane 120B of the 7th channel 107B from fixed valve plate 12B are downward
With extend outwardly, the 8th channel 108B is extended downwardly and outwardly from the first fluid control plane 120B of fixed valve plate 12B, should
12nd channel 1012B is extended downwardly and outwardly from the first fluid control plane 120B of fixed valve plate 12B.
As shown in Figure 61 to Figure 67 of attached drawing, according to the plane of the water treatment system of the utility model third preferred embodiment
The valve body 11B of valve 10B has an inner wall 111B, and wherein fixed valve plate 12B is suitable for first fluid control plane 120B upward
Ground is set to inner cavity 110B and moving valve plate 13B and is set to inner cavity 110B facing downward suitable for second fluid control plane 130B,
In inner cavity 110B be connected always with the 9th channel 109B.It is worth noting that, the fixed valve plate 12B of flat valve 10B
The inner wall 111B of valve body 11B can be removably disposed in, can also with the valve body 11B of flat valve 10B this is interior
Wall 111B phase is integrally formed.It will be understood by those skilled in the art that when fixed valve plate 12B is removably disposed in the valve body
When in 11B, fixed valve plate 12B and the valve body are kept by a fixed mechanism between fixed valve plate 12B and valve body 11B
Synchronization between 11B.For example, fixed valve plate 12B is with one from fixed valve plate 12B's as shown in Figure 61 to Figure 67 of attached drawing
The inner wall 111B of the outwardly projecting brake component 123B in edge, valve body 11B have a breaker slot 1110B, and wherein this determines valve
The brake component 123B of piece 12B, which is set, to be meshed with the breaker slot 1110B of the inner wall 111B of valve body 11B, with
Ensure to be synchronised between fixed valve plate 12B and valve body 11B (or will not relatively rotate) and ensure to be arranged on this and determines valve
Each channel of piece 12B is connected with the corresponding opening for being arranged on valve body 11B.It is appreciated that working as fixed valve plate 12B quilt
When being removably disposed in valve body 11B, fixed valve plate 12B is separately manufactured.In other words, at this point, fixed valve plate 12B
It can be made of wear-resistant material, to improve the service life of fixed valve plate 12B (or entire flat valve).Preferably, the fixed valve plate
The smoothed processing of the first fluid control plane 120B of 12B is to reduce its degree of roughness.
As shown in Figure 61 to Figure 67 of attached drawing, according to the plane of the water treatment system of the utility model third preferred embodiment
Valve 10B further comprises a diversion member 15B, and wherein diversion member 15B forms drain outlet 150B, wherein the water conservancy diversion
Element 15B be set upwardly extended from moving valve plate 13B and the drain outlet 150B of diversion member 15B respectively with the plane
9th opening 1109B of valve is connected with the 11st channel 1011B, and (the 9th opening 1109B is arranged on the flat valve
The valve body 11B of 10B) or drain outlet 150B directly with the 9th opening 1109B be connected (the 9th opening 1109B
It is arranged on the moving valve plate 13B of flat valve 10B, and is connected with the 11st channel 1011B) so that sewage or waste water
It can be from its outflow.
As shown in Figure 61 to Figure 67 of attached drawing, according to the plane of the water treatment system of the utility model third preferred embodiment
Valve 10B further comprises the driving element 18B upwardly extended from moving valve plate 13B, and wherein driving element 18B is set
The moving valve plate 13B of flat valve 10B can be driven to rotate with respect to fixed valve plate 12B.Preferably, driving element 18B
It is integrally formed with diversion member 15B phase.Optionally, driving element 18B and diversion member 15B is two independent machines
Structure.
As shown in Figure 61 to Figure 67 of attached drawing, according to the plane of the water treatment system of the utility model third preferred embodiment
Valve 10B further comprises a sealing element 17B, and wherein sealing element 17B is set facing with driving element 18B
Face, wherein sealing element 17B forms a primary sealing area 170B, and driving element 18B forms a secondary sealing area
180B, wherein the primary sealing area 170B of sealing element 17B is arranged on the secondary sealing area of driving element 18B
180B, so that when driving element 18B is rotated relative to sealing element 17B, to drive moving valve plate 13B to determine valve with respect to this
When piece 12B is rotated, the leakage of water is sealed and prevented between driving element 18B and sealing element 17B.In addition, the sealing
Element 17B, which is set, to be able to maintain driving element 18B and is in appropriate location, thus keep moving valve plate 13B be in one it is pre-
If position.
As shown in Figure 61 to Figure 67 of attached drawing, according to the plane of the water treatment system of the utility model third preferred embodiment
The diameter of the slightly smaller than inner cavity 110B of valve body 11B is set in the diameter of the moving valve plate 13B of valve 10B, so that the plane
The 9th channel 109B of valve 10B can keep being connected with the inner cavity 110B of valve body 11B by water inlet 1091B.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to the water of the utility model third preferred embodiment
The control device 16B of the flat valve 10B of processing system, which is set, to be passed through according to a purification-softening control instruction
One transmission mechanism 14B, such as transmission gear drive driving element 18B to rotate, to drive the moving valve plate of flat valve 10B
13B relative to fixed valve plate 12B rotate, thus formed one respectively with the inner cavity 110B of the valve body 11B of flat valve 10B and
5th opening 1105B be connected the first communicating passage 1001B, one respectively with valve body 11B this second opening 1102B
It is open respectively with the 6th of valve body 11B the with the 7th opening 1107B the second communicating passage 1002B being connected and one
1106B and the 8th opening third connecting channel 1003B that is connected of 1108B, with allow raw water from valve body 11B this is interior
The 5th opening 1105B of first communicating passage 1001B, valve body 11B by flat valve 10B formation, chamber 110B is somebody's turn to do
The first connection opening 201 of purification device 20 flows into the purification device 20, and raw water is after 20 purified treatment of purification device
Obtained water purification is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way, wherein water purification all the way
First lead-through opening 301 through the Softening box 31 flows into the Softening box 31, and softened water, softened water are obtained after softened processing
It is flowed out from second lead-through opening 302 of the Softening box 31, then the 7th the opening 1107B, the flat valve through valve body 11B
Second communicating passage 1002B of 10B, most afterwards second opening 1102B through valve body 11B, which is flowed out and supplied to user, to be softened
Water, another way water purification flow through the third connecting channel 1003B of the 6th opening 1106B of valve body 11B, flat valve 10B,
Most the 8th opening 1108B through valve body 11B flows out and supplies water purification to user afterwards;According to a softening filter core (softening dress
Set) backwash control instruction, by transmission mechanism 14B, such as transmission gear drives driving element 18B to rotate, to drive this flat
The moving valve plate 13B of face valve 10B is rotated relative to fixed valve plate 12B, to form the valve with flat valve 10B respectively
The 4th communicating passage 1004B that is connected of opening 1107B of the inner cavity 110B of body 11B and the 7th and one respectively with the valve body
The 5th communicating passage 1005B that the 9th opening 1109B of the 6th opening 1106B and flat valve 10B of 11B are connected,
To allow raw water to be flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then by should
Flat valve 10B formed the 4th communicating passage 1004B flow into the 7th opening 1107B, then through the Softening box 31 this second
Lead-through opening 302 flows into the Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softens resin
Deng after back flush, obtained sewage or waste water is flowed out from first lead-through opening 301 of the Softening box 31, then flows through this
The 6th opening 1106B of valve body 11B flows into the 5th communicating passage 1005B of flat valve 10B, then from the flat valve
10B the 9th opening 1109B outflow, meanwhile, also formed one respectively with valve body 11B this second opening 1102B and be somebody's turn to do
The 16th communicating passage 10016B that inner cavity 110B is connected, to allow the first opening 1101B stream of raw water from valve body 11B
Enter the inner cavity 110B to valve body 11B, then by the 16th communicating passage 10016B flow into valve body 11B this second
Be open 1102B, provides raw water to user, also forms be open respectively with the 8th of valve body 11B the 1108B and the inner cavity
The 17th communicating passage 10017B that 110B is connected, to allow raw water to be flowed into from first opening 1101B of valve body 11B
The inner cavity 110B of valve body 11B, then flow into valve body 11B by the 17th communicating passage 10017B the 8th open
Mouth 1108B provides raw water to user;It is such as passed according to a purification device backwash control instruction by transmission mechanism 14B
Moving gear drives driving element 18B to rotate, to drive the moving valve plate 13B of flat valve 10B to turn with respect to fixed valve plate 12B
It is dynamic, so that it is logical to form the 6th connection that one is connected with the opening of the inner cavity 110B of valve body 11B and the 6th 1106B respectively
The road 1006B and 1109B that is open respectively with the 9th of the 5th opening 1105B and flat valve 10B of valve body 11B the
The 7th communicating passage 1007B being connected, to allow raw water to be flowed into the valve body from first opening 1101B of valve body 11B
Then the inner cavity 110B of 11B flows into the 6th opening 1106B by the 6th communicating passage 1006B, enters back into the purification
The second connection opening 202 of device 20, in the purification device 20 material for water treatment or mechanism back flush after, it is net from this
20 201 outflow of the first connection opening is set in makeup, and the 5th opening 1105B for then flowing through valve body 11B flows into the 7th
Communicating passage 1007B, then from the 9th of flat valve 10B opening 1109B outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016B that second opening 1102B of valve body 11B is connected with inner cavity 110B, to allow raw water certainly
First opening 1101B of valve body 11B is flowed into the inner cavity 110B of valve body 11B, then logical by the 16th connection
Road 10016B flow into valve body 11B this second opening 1102B, to user provide raw water, also formed one respectively with the valve
The tenth eight connectivity channel 10018B that the 8th opening 1108B of body 11B is connected with inner cavity 110B, to allow raw water certainly
First opening 1101B of valve body 11B is flowed into the inner cavity 110B of valve body 11B, then logical by the tenth eight connectivity
Road 10018B flows into the 8th opening 1108B of valve body 11B, provides raw water to user.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to the water of the utility model third preferred embodiment
The control device 16B of the flat valve 10B of processing system is further set can be according to a softening filter core Regeneration control
Instruction, by transmission mechanism 14B, such as transmission gear drives driving element 18B to rotate, to drive being somebody's turn to do for flat valve 10B
Moving valve plate 13B relative to fixed valve plate 12B rotate, thus formed one respectively with the inner cavity 110B and the third of valve body 11B
Eight connectivity channel 1008B that opening 1103B is connected, one be open respectively with the 7th of the valve body 11B 1107B and this
Four the 9th communicating passage 1009B that are connected of opening 1104B and one be open respectively with the 6th of valve body 11B the 1106B and
The tenth communicating passage 10010B that the 9th opening 1109B of flat valve 10B is connected, to allow raw water from valve body 11B
First opening 1101B be flowed into the inner cavity 110B of valve body 11B, then flowed by the eight connectivity channel 1008B
Third opening 1103B, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from the salt
The entry portal 322 after the liquid of liquid case 33 through the ejector 32 flows into the 4th opening 1104B of valve body 11B, then leads to
Cross the 9th communicating passage 1009B flow into the 7th opening 1107B, it is inverse into second lead-through opening 302 of the Softening box 31
It after stream regenerates the softening resin in the Softening box 31, is flowed out from first lead-through opening 301, then flows through being somebody's turn to do for valve body 11B
6th opening 1106B flows into the tenth communicating passage 10010B, then flows out from the 9th opening 1109B of flat valve 10B,
Meanwhile also forming the 16th connection being connected respectively with second opening 1102B and inner cavity 110B of valve body 11B
Channel 10016B, to allow raw water to be flowed into the inner cavity of valve body 11B from first opening 1101B of valve body 11B
Then 110B is flowed into second opening 1102B of valve body 11B by the 16th communicating passage 10016B, mentioned to user
For raw water, the 17th company being connected respectively with the 8th opening 1108B and inner cavity 110B of valve body 11B is also formed
Circulation passage 10017B, to allow raw water to be flowed into the inner cavity of valve body 11B from first opening 1101B of valve body 11B
Then 110B is flowed into the 8th opening 1108B of valve body 11B by the 17th communicating passage 10017B, mentioned to user
For raw water;Control instruction is just washed according to a softening filter core (softening plant), by transmission mechanism 14B, such as transmission gear,
Driving element 18B is driven to rotate, to drive the moving valve plate 13B of flat valve 10B to rotate relative to fixed valve plate 12B, thus
Form the 11st communicating passage being connected respectively with the opening of the inner cavity 110B of valve body 11B and the 6th 1106B
10011B and 1109B phase that is open respectively with the 9th of the 7th opening 1107B and flat valve 10B of valve body 11B the
12nd communicating passage 10012B of connection, to allow raw water to be flowed into the valve from first opening 1101B of valve body 11B
Then the inner cavity 110B of body 11B flows into the 6th opening 1106B by the 11st communicating passage 10011B, enters back into this
First lead-through opening 301 of Softening box 31, in the Softening box 31 material for water treatment or mechanism forward direction rinse after, it is soft from this
Second lead-through opening 302 outflow for changing case 31, the 7th opening 1107B for then flowing through valve body 11B flow into the 12nd
Communicating passage 10012B, then from the 9th of flat valve 10B opening 1109B outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016B that second opening 1102B of valve body 11B is connected with inner cavity 110B, to allow raw water certainly
First opening 1101B of valve body 11B is flowed into the inner cavity 110B of valve body 11B, then logical by the 16th connection
Road 10016B flow into valve body 11B this second opening 1102B, to user provide raw water, also formed one respectively with the valve
The 17th communicating passage 10017B that the 8th opening 1108B of body 11B is connected with inner cavity 110B, to allow raw water certainly should
First opening 1101B of valve body 11B is flowed into the inner cavity 110B of valve body 11B, then passes through the 17th communicating passage
10017B flows into the 8th opening 1108B of valve body 11B, provides raw water to user.
As shown in Figure 68 A to Figure 74 and Figure 76 A to Figure 76 G of attached drawing, according to the water of the utility model third preferred embodiment
The control device 16B of the flat valve 10B of processing system, which is further set, just to wash control according to a purification device
Instruction, by transmission mechanism 14B, such as transmission gear drives driving element 18B to rotate, to drive being somebody's turn to do for flat valve 10B
Moving valve plate 13B is rotated relative to fixed valve plate 12B, to form the inner cavity 110B and the 5th with valve body 11B respectively
The tenth tee joint channel 10013B that is connected of opening 1105B and one be open respectively with the 6th of valve body 11B the 1106B and
The 14th communicating passage 10014B that the 9th opening 1109B of flat valve 10B is connected, to allow raw water from the valve body
First opening 1101B of 11B is flowed into the inner cavity 110B of valve body 11B, then passes through the tenth tee joint channel
10013B flows into the 5th opening 1105B, the first connection opening 201 of the purification device 20 is entered back into, to the purification device
After material for water treatment or mechanism forward direction in 20 rinse, from 202 outflow of the second connection opening of the purification device 20, then flow
The 6th opening 1106B through valve body 11B flows into the 14th communicating passage 10014B, then being somebody's turn to do from flat valve 10B
9th opening 1109B outflow, meanwhile, also formed one respectively with valve body 11B this second opening 1102B and inner cavity 110B
The 16th communicating passage 10016B being connected, to allow raw water to be flowed into the valve from first opening 1101B of valve body 11B
Then the inner cavity 110B of body 11B flows into second opening of valve body 11B by the 16th communicating passage 10016B
1102B provides raw water to user, also forms the 1108B and inner cavity 110B that is open respectively with the 8th of valve body 11B the
The 17th communicating passage 10017B being connected, to allow raw water to be flowed into the valve from first opening 1101B of valve body 11B
Then the inner cavity 110B of body 11B flows into the 8th opening of valve body 11B by the 17th communicating passage 10017B
1108B provides raw water to user;According to a moisturizing control instruction, pass through transmission mechanism 14B, such as transmission gear, driving
Driving element 18B rotation, to drive the moving valve plate 13B of flat valve 10B to rotate relative to fixed valve plate 12B, to be formed
One the 15th communicating passage 10015B being connected respectively with the opening of the inner cavity 110B of valve body 11B and the 4th 1104B,
To allow raw water to be flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then by should
15th communicating passage 10015B flows into the 4th opening 1104B, then flows into the entry portal 322 of the ejector 32, to saline solution
33 moisturizing of case, meanwhile, also formation one is connected with second opening 1102B and inner cavity 110B of valve body 11B respectively
16th communicating passage 10016B, to allow raw water to be flowed into valve body 11B's from first opening 1101B of valve body 11B
Then inner cavity 110B flows into second opening 1102B of valve body 11B, to making by the 16th communicating passage 10016B
User provides raw water, also formed one be connected respectively with the 8th of valve body 11B opening 1108B and inner cavity 110B the
17 communicating passage 10017B, to allow raw water to be flowed into being somebody's turn to do for valve body 11B from first opening 1101B of valve body 11B
Then inner cavity 110B flows into the 8th opening 1108B of valve body 11B, to using by the 17th communicating passage 10017B
Person provides raw water.
It is worth noting that, correspondingly, when the water treatment system according to the utility model third preferred embodiment be in this
Two working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016B is visual
The a part in water route is supplied for first raw water), wherein first raw water supply water route, which is set, allows raw water that can flow through this
Raw water is supplied water route and is provided by second opening 1102B of valve body 11B;Preferably implement when according to the utility model third
The water treatment system of example is in second working condition, the third working condition, the 4th working condition, the 5th work shape
When state, the 6th working condition and seven working conditions, which forms second raw water and supplies water route, wherein
Second raw water supply water route, which is set, allows raw water that can flow through raw water supply water route and by the 8th of valve body 11B
Opening 1108B is provided.Preferably, the water treatment system is in second working condition, the 4th working condition, the 5th work
Second raw water that state, the 6th working condition and the 7th working condition are formed supplies water route (the 17th communicating passage
10017B participates in being formed, can be considered second raw water supply water route a part) and the water treatment system the third work shape
(the tenth eight connectivity channel 10018B participates in being formed, and can be considered that second raw water supplies in morphogenetic second raw water supply water route
Answer a part in water route) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of control device 16B, can also pass through an electronics
Communication network passes through an input interface input received from a controlling terminal, or by user.For example, working as the utility model
Water treatment system is provided having the input interface for flat valve 10B, when such as Trackpad or control button, uses
Person can send above-mentioned control instruction to the control module of control device 16B by touch panel or corresponding control button, with
The control module of control device 16B is set to control the motor rotation of control device 16B, to pass through a transmission mechanism 14B
Driving element 18B is driven to rotate.
As shown in Figure 61 to Figure 62, Figure 76 A to Figure 76 G of attached drawing, at the water according to the utility model third preferred embodiment
Reason system illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element, wherein
The purification device 20 includes that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on the shell
Filter house 23 in 21, wherein the filter house 23 can be the ultrafiltration silk for ultra-filtration filters, net type filter or stacked
Filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, such as the figure of attached drawing
Shown in 76A to Figure 76 G, the softening plant 30 of the utility model water treatment system includes a Softening box 31, the wherein softening
Case 31 includes 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, and wherein the cabinet 311 has one
Soften 3110, first lead-through openings 301 of chamber and second lead-through opening 302, wherein the liquid collecting unit 312 includes one
A central tube 3121, the water pliable cell 313 be suitable for be contained within the softening chamber 3110, wherein the central tube 3121 be suitable for
Second lead-through opening 302 is connected, and wherein the central tube 3121 has one high end opening 31211 and a low side opening
31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting unit 312
The low side opening 31212 of central tube 3121 flows into the central tube 3121 and the high end opening 31211 from the central tube 3121 flows out;
Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, with the work of softening performance
Property charcoal or other similar softener materials or combinations thereof.
It is appreciated that first passage 101B, being somebody's turn to do to strengthen the structural strength of the fixed valve plate 12B of flat valve 10B
Second channel 102B, third channel 103B, fourth lane 104B, the Five-channel 105B, the 6th channel 106B, this
Seven channel 107B, the 8th channel 108B and the 12nd channel 1012B can be split by reinforcing entity structure or every
It is split into two adjacent slightly smaller channels.For example, preferably implementing as shown in Figure 83 to Figure 86 G of attached drawing according to the utility model third
The 8th channel 108B of the fixed valve plate 12B of the flat valve 10B of the water treatment system of example passes through a ribs or reinforcement
Muscle is spaced into the slightly smaller channel 1081B and channel 1082B of two internal diameters, wherein when flat valve 10B is in first work
When position, the tenth triple channel 1013B of flat valve 10B is connected with channel 1081B and the 12nd channel 1012B respectively,
To form third connecting channel 1003B;When flat valve 10B is in second working position, flat valve 10B's should
11st channel 1011B is connected with channel 1081B, to form the 5th communicating passage 1005B;At flat valve 10B
When the third working position, the 9th channel 109B is connected with channel 1082B, to form the 6th communicating passage
1006B;When flat valve 10B is in four working positions, the 11st channel 1011B is connected with channel 1082B,
To form the tenth communicating passage 10010B;When flat valve 10B is in five working positions, flat valve 10B's should
9th channel 109B is connected with channel 1081B, to form the 11st communicating passage 10011B;At flat valve 10B
When six working positions, the 11st channel 1011B of flat valve 10B is connected with channel 1081B, should to be formed
14th communicating passage 10014B.Correspondingly, when flat valve 10B is in the first working position, which is in purification-
Soften working condition, raw water is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then
The first passage 101B of fixed valve plate 12B is flowed by the 9th channel 109B of moving valve plate 13B, then passes through the valve
The 5th opening 1105B of body 11B enters the first connection opening 201 of the purification device 20, by the purification device 20
After material for water treatment or mechanism processing, from 202 outflow of the second connection opening of the purification device 20, the water purification being then out point
At two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, by the softening tree in the Softening box 31
It after rouge processing, is flowed out from second lead-through opening 302 of the Softening box 31, then flows through the 7th opening of valve body 11B
1107B enters the third channel 103B of fixed valve plate 12B, enters by the tenth channel 1010B water conservancy diversion of moving valve plate 13B
Then the Five-channel 105B of fixed valve plate 12B is handled by the second opening 1102B of valve body 11B to user's supply
Water afterwards, the 6th opening 1106B that another way water purification flows through valve body 11B enter the channel 1081B of fixed valve plate 12B, warp
The tenth triple channel 1013B water conservancy diversion for crossing moving valve plate 13B enters the 12nd channel 1012B of fixed valve plate 12B, most passes through afterwards
The 8th opening 1108B of valve body 11B flows out and supplies water purification to user;When flat valve 10B is in the second working position,
The water treatment machine is in softening filter core (softening plant) the backwash working condition, first opening of raw water from valve body 11B
1101B is flowed into the inner cavity 110B of valve body 11B, and it is fixed then to flow into this by the 9th channel 109B of moving valve plate 13B
Then the fourth lane 104B of valve block 12B enters being somebody's turn to do for the Softening box 31 by the 7th opening 1107B of valve body 11B
Second lead-through opening 302 is opened after the softening resin back flush in the Softening box 31 from first conducting of the Softening box 31
Mouthfuls 301 flow out, and then flow through the 6th opening 1106B of valve body 11B, pass through fixed valve plate 12B channel 1081B and
The 11st channel 1011B of moving valve plate 13B, then the 9th opening 1109B outflow from flat valve 10B;When the plane
When valve 10B is in third working position, which is in purification device backwash working condition, and raw water should from valve body 11B's
First opening 1101B is flowed into the inner cavity 110B of valve body 11B, then passes through the 9th channel 109B of moving valve plate 13B
The channel 1082B of fixed valve plate 12B is flowed into, the purification device is then entered by the 6th opening 1106B of valve body 11B
20 this second connection opening 202, in the purification device 20 material for water treatment or mechanism back flush after, from the purification fill
201 outflow of the first connection opening for setting 20, then flows through the 5th opening 1105B of valve body 11B, into the fixed valve plate
The first passage 101B of 12B passes through the 11st channel 1011B of moving valve plate 13B from the 9th of flat valve 10B
Be open 1109B outflow;Further, when flat valve 10B is in four working positions, which is in the softening filter core
Reproduction operation state, raw water are flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, so
The 6th channel 106B of fixed valve plate 12B is flowed by the 9th channel 109B of moving valve plate 13B afterwards, then passes through the valve
The third opening 1103B of body 11B flows into the exit wound of bullet 321 of the ejector 32, and by 32 jet stream of ejector, mixing is come from
The entry portal 322 after the liquid of the brine tank 33 through the ejector 32 flows into the 4th opening 1104B of valve body 11B, so
The 7th channel 107B for entering fixed valve plate 12B afterwards, entering using the tenth channel 1010B water conservancy diversion of moving valve plate 13B should
The fourth lane 104B of fixed valve plate 12B, the 7th opening 1107B for then flowing through valve body 11B enter the Softening box 31
Second lead-through opening 302, in the counter-current regeneration Softening box 31 as flowed out from first lead-through opening 301 after softening resin,
The 6th opening 1106B for then flowing through valve body 11B enters the channel 1082B of fixed valve plate 12B, then passes through the dynamic valve
The 11st channel 1011B of piece 13B, from the 9th opening 1109B outflow of flat valve 10B;At flat valve 10B
When five working positions, which is in the softening filter core (softening plant) and just washes working condition, and raw water is from valve body 11B
First opening 1101B be flowed into the inner cavity 110B of valve body 11B, then pass through the 9th channel of moving valve plate 13B
109B flows into the channel 1081B of fixed valve plate 12B, then enters the softening by the 6th opening 1106B of valve body 11B
First lead-through opening 301 of case 31, after being rinsed to the softening resin forward direction in the Softening box 31, from the Softening box 31 this
The outflow of two lead-through openings 302 then flows through the 7th opening 1107B of valve body 11B, pass through fixed valve plate 12B this
The 11st channel 1011B of triple channel 103B and moving valve plate 13B, then the 9th opening 1109B from flat valve 10B
Outflow;Further, when flat valve 10B is in six working positions, which is in the purification device and just washes work
Make state, raw water is flowed into the inner cavity 110B of valve body 11B from first opening 1101B of valve body 11B, then by being somebody's turn to do
The 9th channel 109B of moving valve plate 13B flows into the second channel 102B of fixed valve plate 12B, then passes through valve body 11B's
5th opening 1105B enters the first connection opening 201 of the purification device 20, to the water process in the purification device 20
After material or mechanism forward direction are rinsed, from 202 outflow of the second connection opening of the purification device 20, valve body 11B is then flowed through
The 6th opening 1106B, into the channel 1081B of fixed valve plate 12B, pass through moving valve plate 13B the 11st is logical
Nineth opening 1109B outflow of the road 1011B from flat valve 10B;When flat valve 10B is in seven working positions, the water
Processor is in the brine tank moisturizing working condition, and raw water is flowed into the valve body from first opening 1101B of valve body 11B
The inner cavity 110B of 11B, then flow into fixed valve plate 12B by the 9th channel 109B of moving valve plate 13B the 7th are led to
Road 107B, the 4th opening 1104B for then flowing through valve body 11B flows into the entry portal 322 of the ejector 32, to brine tank
33 moisturizings.
With reference to shown in Figure 87 A to Figure 90 G of attached drawing, according to this of the water treatment system of the utility model third preferred embodiment
The optional implementation of one kind of flat valve 10B is elucidated with, and wherein flat valve 10R has a first passage 101B, and one second logical
Road 102B, third channel 103B, a fourth lane 104B, a Five-channel 105R, a 6th channel 106B, one
A 7th channel 107B, a 8th channel 108B, a 9th channel 109B, a tenth channel 1010B, one the 11st
Channel 1011B, a 12nd channel 1012R and a tenth triple channel 1013B, wherein first passage 101B, this second
Channel 102B, third channel 103B, fourth lane 104B, the Five-channel 105R, the 6th channel 106B, the 7th are led to
Road 107B, the 8th channel 108B and the 12nd channel 1012R are respectively arranged on fixed valve plate 12B and respectively from the fixed valve plates
The first fluid control plane 120B of 12B extends;9th channel 109B, the tenth channel 1010B, the 11st channel
1011B and the tenth triple channel 1013R are respectively arranged on moving valve plate 13B and respectively from the second fluid control of moving valve plate 13B
Face 130B processed extends, and first passage 101B and second channel 102B are connected with the 5th opening 1105B respectively, the third
Channel 103B and fourth lane 104B is connected with the 7th opening 1107B respectively, which second opens with this
Mouth 1102B is connected, and the 6th channel 106B is connected with third opening 1103B, and the 7th channel 107B is opened with the 4th
Mouthful 1104B is connected, and the 8th channel 108B is connected with the 6th opening 1106B, the 12nd channel 1012R with this
Eight opening 1108B are connected, and the 9th channel 109B is connected with the inner cavity 110B of valve body 11B, the 11st channel
1011B is connected with the 9th opening 1109B.
As shown in Figure 87 A to Figure 90 G of attached drawing, when flat valve 10R is in the second working position, flat valve 10R's
The Five-channel 105R and the 12nd channel 1012R is closed by moving valve plate 13B respectively;When flat valve 10R is in third
When working position, the Five-channel 105R of flat valve 10R is closed by moving valve plate 13B;When flat valve 10R is in the 4th work
When making position, Five-channel 105R and the 12nd channel 1012R of flat valve 10R is closed by moving valve plate 13B respectively;When
When flat valve 10R is in five working positions, Five-channel 105R and the 12nd channel 1012B of flat valve 10R distinguishes
It is closed by moving valve plate 13B;When flat valve 10R is in six working positions, the Five-channel 105R of flat valve 10R and
12nd channel 1012R is closed by moving valve plate 13B respectively;When flat valve 10R is in seven working positions, the flat valve
Five-channel 105R and the 12nd channel 1012R of 10R is closed by moving valve plate 13B respectively.Therefore, such as the figure of attached drawing
Shown in 87A to Figure 90 G, when the flat valve 10R of the water treatment system according to the utility model third preferred embodiment be in this
When two working positions, the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions,
Flat valve 10R does not re-form (or can not be formed) the 16th communicating passage 10016B;When flat valve 10R be in this second
When working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, flat valve 10R is no longer
Form (or can not be formed) the 17th communicating passage 10017B.In other words, when flat valve 10R is in second work
When position, the 4th working position, the 5th working position, the 6th working position and seven working positions, flat valve 10R does not pass through this
Second opening 1102B and the 8th opening 1108B provide pending water (or raw water);When flat valve 10R is in the third work
When making position, flat valve 10R does not pass through second opening 1102B and provides pending water (or raw water).
With reference to Figure 91 to Figure 120 G of the utility model attached drawing, according to the water process system of the 4th preferred embodiment of the utility model
System is illustrated, and it is suitable for carrying out purifying-sofening treatment to pending water (or raw water), wherein the water treatment system includes one
A fluid valve 10C, a purification device 20 and a softening plant 30, wherein fluid valve 10C includes a valve body 11C and one
A spool 1C, wherein fluid valve 10C has an inner cavity 110C, a first opening 1101C, second opening
1102C, a third opening 1103C, a 4th opening 1104C, a 5th opening 1105C, the 6th opening
1106C, one the 7th opening 1107C, the 8th 1108C and one a 9th opening 1109C of opening, wherein spool 1C quilt
It is arranged in inner cavity 110C.It is appreciated that first opening 1101C, second opening 1102C, third opening 1103C, is somebody's turn to do
4th opening 1104C, the 5th opening 1105C, the 6th opening 1106C, the 7th opening 1107C, the 8th opening 1108C
Valve body 11C in the fluid valve 10 is preferably spaced apart with the 9th opening 1109C.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
The water treatment system has first working condition, second working condition and a third working condition, wherein when this
When water treatment system is in first working condition, fluid valve 10C formed one respectively with valve body 11C this first opening
The first communicating passage 1001C that the opening of 1101C and the 5th 1105C is connected, one second opened with this of valve body 11C respectively
Mouthful 1102C and the 7th be open the second communicating passage 1002C that 1107C is connected and one respectively with valve body 11C this
Six opening 1106C and the 8th are open the third connecting channel 1003C that is connected of 1108C, when the water treatment system be in this
When two working conditions, fluid valve 10C forms one and is open respectively with the first opening 1101C and the 7th of valve body 11C
The 4th communicating passage 1004C and the 1106C and the 9th that is open respectively with the 6th of valve body 11C that 1107C is connected
The 5th communicating passage 1005C that opening 1109C is connected, when the water treatment system is in the third working condition, the fluid
Valve 10C forms the 6th company being connected respectively with the first opening 1101C of valve body 11C and the 6th opening 1106C
Circulation passage 1006C and one be open that 1109C is connected with the 5th opening 1105C of valve body 11C and the 9th respectively the
Seven communicating passage 1007C.Preferably, further there is one according to the water treatment system of the 4th preferred embodiment of the utility model
Four working conditions and the 5th working condition, when the water treatment system is in four working conditions, fluid valve 10C shape
The eight connectivity channel being connected respectively with the first opening 1101C of valve body 11C and third opening 1103C at one
1008C, the 9th connection that the opening of 1107C and the 4th 1104C is connected that is open respectively with the 7th of valve body 11C the are logical
Road 1009C and the 1109C phase that is open respectively with the 9th of the 6th opening 1106C and fluid valve 10C of valve body 11C the
Tenth communicating passage 10010C of connection, when the water treatment system is in five working conditions, fluid valve 10C is formed
One the 11st communicating passage being connected respectively with the first opening 1101C of valve body 11C and the 6th opening 1106C
The 12nd company that the 10011C and opening of 1107C and the 9th 1109C that is open respectively with the 7th of valve body 11C the is connected
Circulation passage 10012C.It is highly preferred that further there is one according to the water treatment system of the 4th preferred embodiment of the utility model
Six working conditions and the 7th working condition, when the water treatment system is in six working conditions, fluid valve 10C shape
The tenth tee joint being connected respectively with the first opening 1101C of valve body 11C and the 5th opening 1105C at one is logical
Road 10013C and the ten to be connected respectively with the 6th opening 1106C of valve body 11C and the 9th opening 1109C
Four communicating passage 10014C, when the water treatment system is in seven working conditions, fluid valve 10C formed one respectively with
The 15th communicating passage 10015C that the first opening 1101C of valve body 11C is connected with the 4th opening 1104C.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, further, when according to the utility model the 4th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13C and the fixed valve plate of flat valve 10C
12C forms the 16th company being connected respectively with the first opening 1101C of valve body 11C and second opening 1102C
Circulation passage 10016C;Second working condition, the 4th working condition, the 5th working condition, the 6th working condition and
When seven working conditions, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C formed one respectively with valve body 11C
The first opening 1101C and the 8th be open the 17th communicating passage 10017C that is connected of 1108C;It works in the third
When state, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C form one and first open with this of valve body 11C respectively
The tenth eight connectivity channel 10018C that mouth 1101C is connected with the 8th opening 1108C.
As shown in Figure 91 to Figure 108 G of attached drawing, according to the fluid of the water treatment system of the 4th preferred embodiment of the utility model
Valve 10C is a flat valve, and wherein flat valve 10C further comprises a moving valve plate 13C and a fixed valve plate 12C, wherein
There is the fixed valve plate 12C first fluid control plane 120C, moving valve plate 13C to have a second fluid control plane 130C,
Wherein moving valve plate 13C and fixed valve plate 12C are arranged on inner cavity 110C, wherein the second fluid of moving valve plate 13C
Control plane 130C is arranged on the first fluid control plane 120C of fixed valve plate 12C, and be set can by moving valve plate 13C
It is rotated relative to fixed valve plate 12C, wherein there is the purification device 20 one first connection opening 201 to be connected to out with one second
Mouth 202, wherein the softening plant 30 includes a Softening box 31, and wherein the Softening box 31 has first lead-through opening 301
With second lead-through opening 302, wherein the inner cavity 110C of valve body 11C is connected with first opening 1101C, the purification
The first connection opening 201 of device 20 is connected with the 5th opening 1105C of valve body 11C, which is somebody's turn to do
First lead-through opening 301 of second connection opening 202 and the Softening box 31 with the 6th of valve body 11C opening 1106C
It is connected, second lead-through opening 302 of the Softening box 31 is connected with the 7th opening 1107C of valve body 11C.Therefore,
When fluid valve 10C is a flat valve, the spool 1C of fluid valve 10C includes moving valve plate 13C and the fixed valve plate
12C.Furthermore, it is to be understood that since the inner cavity 110C of the valve body 11C of flat valve 10C is connected with first opening 1101C
Logical, therefore, pending water is provided by the first opening 1101C and inner cavity 110C.
As shown in Figure 91, Figure 92 and Figure 106 A to Figure 106 G of attached drawing, according to the water of the 4th preferred embodiment of the utility model
The softening plant 30 of processing system further comprises an ejector 32 and a brine tank 33, and wherein the ejector 32 has
One is suitable for being suitable for the third of valve body 11C opening 1103C exit wound of bullet 321 being connected and one with valve body 11C's
The entry portal 322 that 4th opening 1104C is connected, wherein the brine tank 33 is suitable for being connected with the ejector 32, to make
Saline solution from the brine tank 33 can be somebody's turn to do by the ejector 32 and the 4th opening 1104C, and through flat valve 10C flow direction
Softening box 31 of softening plant 30, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when this is practical new
When type water treatment system is in a softening filter core suction salt reproduction operation state, raw water or pending water being somebody's turn to do from valve body 11C
First opening 1101C is flowed into the inner cavity 110C of valve body 11C, and then being flowed by an eight connectivity channel 1008C should
Third opening 1103C, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from the saline solution
The entry portal 322 after the liquid of case 33 through the ejector 32 flows into the 4th opening 1104C of valve body 11C, then passes through
One the 9th communicating passage 1009C flow into the 7th opening 1107C, it is inverse into second lead-through opening 302 of the Softening box 31
Stream regenerates material for water treatment or mechanism in the Softening box 31, after softening resin, flows out from first lead-through opening 301, so
A the tenth communicating passage 10010C is flowed into after flowing through the 6th opening 1106C of valve body 11C afterwards, then from the flat valve
One the 9th opening 1109C of 10C flows out.Although being appreciated that the utility model is exemplarily only described through ejector 32
There is provided saline solution mode to Softening box 31, however, saline solution can also otherwise or mechanism by flat valve 10C this
Four opening 1104C are provided to the Softening box 31.Therefore, it is not answered in such a way that ejector 32 provides saline solution to Softening box 31
Limitation as the utility model.
It will be appreciated by those skilled in the art that the flat valve 10C of the utility model water treatment system can further have
One is arranged on the bindiny mechanism of valve body 11C, such as connection screw thread, snap fit connector, in order to flat valve 10C and the water
The other structures component of processing system, such as purification device, softening plant are connected, to guide water flow to flow to purification dress respectively
It sets, each communicating passage that the Softening box of softening plant and flat valve 10C are formed.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
The water treatment system has first working condition, second working condition and a third working condition, wherein when this
When water treatment system is in first working condition, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C forms one
Respectively with valve body 11C this first opening 1101C and the 5th be open 1105C be connected the first communicating passage 1001C, one
A the second communicating passage 1002C being connected respectively with the second opening 1102C of valve body 11C and the 7th opening 1107C
The third connecting channel being connected with the opening of 1106C and the 8th 1108C that is open respectively with the 6th of valve body 11C the
1003C, when the water treatment system is in second working condition, the moving valve plate 13C and the fixed valve plate of flat valve 10C
12C forms the 4th connection being connected respectively with the first opening 1101C of valve body 11C and the 7th opening 1107C
The channel 1004C and 1109C that is open respectively with the 9th of the 6th opening 1106C and flat valve 10C of valve body 11C the
The 5th communicating passage 1005C being connected, when the water treatment system is in the third working condition, flat valve 10C's should
Moving valve plate 13C and fixed valve plate 12C forms one and is open respectively with the first opening 1101C and the 6th of valve body 11C
The 6th communicating passage 1006C and be open respectively with the 5th of valve body 11C the 1105C and the plane that 1106C is connected
The 7th communicating passage 1007C that the 9th opening 1109C of valve 10C is connected.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in first working condition, first communicating passage 1001C that flat valve 10C is formed respectively with this
Valve body 11C this first opening 1101C and the 5th be open 1105C be connected, second communicating passage 1002C respectively with the valve
Body 11C this second opening 1102C and the 7th be open 1107C be connected, third connecting channel 1003C respectively with the valve
Body 11C the 6th opening 1106C and the 8th be open 1108C be connected, thus allow raw water from valve body 11C this first
Opening 1101C is flowed into the inner cavity 110C of valve body 11C, first communicating passage then formed by flat valve 10C
1001C, valve body 11C the 5th opening 1105C, the purification device 20 this first connection opening 201 flow into the purification dress
20 are set, the second connection opening of the water purification that raw water obtains after 20 purified treatment of purification device from the purification device 20
202 outflows, then water purification is divided into two-way, wherein first lead-through opening 301 that water purification flows through the Softening box 31 all the way is flowed into and is somebody's turn to do
Softening box 31, and softened water is obtained after softened processing, softened water is flowed out from second lead-through opening 302 of the Softening box 31,
Then second communicating passage 1002C of the 7th opening 1107C through valve body 11C, flat valve 10C, most afterwards through the valve
Second opening 1102C of body 11C flows out and supplies softened water to user, and another way water purification flows through the 6th of valve body 11C
The third connecting channel 1003C of opening 1106C, flat valve 10C, most the 8th opening 1108C through valve body 11C flows afterwards
Supply water purification out and to user.Therefore, when the water treatment system is in first working condition, the utility model water process system
System can provide water purification and softened water to user simultaneously.Correspondingly, first working condition of the water treatment system, which corresponds to, is somebody's turn to do
The purification of water treatment system-softening working condition.Therefore, when the water treatment system is in first working condition, the valve body
First opening 1101C (or the inner cavity 110C of valve body 11C) of 11C, valve body 11C the 5th opening 1105C, this is net
Makeup set 20 this first connection opening 201, the purification device 20 this second connection opening 202, the softening plant 30 should
Second lead-through opening 302, valve of first lead-through opening 301 of Softening box 31, the Softening box 31 of the softening plant 30
Second opening 1102C of the 7th opening 1107C and valve body 11C of body 11C is sequentially communicated, so that forming one should
The water-flowing path that purification device 20 and the softening plant 30 are cascaded is somebody's turn to do so that raw water can be flowed to from the purification device 20
Softening plant 30 and it is cleaned raw water successively and sofening treatment.Meanwhile the 6th the opening 1106C, the plane of valve body 11C
The 8th opening 1108C of the third connecting channel 1003C and valve body 11C of valve 10C form a water purification and supply branch (water
Road), to provide water purification to user.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in second working condition, the 4th communicating passage 1004C that flat valve 10C is formed respectively with this
Valve body 11C this first opening 1101C and the 7th be open 1107C be connected, the 5th communicating passage 1005C respectively with the valve
The 9th opening 1109C of the 6th opening 1106C and flat valve 10C of body 11C is connected, so that raw water be allowed certainly should
First opening 1101C of valve body 11C is flowed into the inner cavity 110C of valve body 11C, is then formed by flat valve 10C
4th communicating passage 1004C flows into the 7th opening 1107C, then second lead-through opening 302 through the Softening box 31 flows into
The Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softening resin, after back flush,
Obtained sewage or waste water is flowed out from first lead-through opening 301 of the Softening box 31, then flow through valve body 11C this
Six opening 1106C flow into the 5th communicating passage 1005C of flat valve 10C, then from the 9th opening of flat valve 10C
1109C outflow.In other words, when the water treatment system is in second working condition, the utility model water treatment system can
Control carries out back flush to softening filter core, such as Softening box 31.Correspondingly, second working condition of the water treatment system is corresponding
In softening filter core (softening plant) backwash working condition of the water treatment system.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in the third working condition, the 6th communicating passage 1006C that flat valve 10C is formed respectively with this
The first opening 1101C of valve body 11C is connected with the 6th opening 1106C, the 7th communicating passage 1007C of flat valve 10C
It is connected respectively with the 9th opening 1109C of the 5th opening 1105C and flat valve 10C of valve body 11C, to allow
Raw water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then connects by the 6th
Circulation passage 1006C flows into the 6th opening 1106C, the second connection opening 202 of the purification device 20 is entered back into, to the purification
After material for water treatment or mechanism back flush in device 20, from 201 outflow of the first connection opening of the purification device 20, so
The 5th opening 1105C for flowing through valve body 11C afterwards flows into the 7th communicating passage 1007C, then being somebody's turn to do from flat valve 10C
9th opening 1109C outflow;Correspondingly, the third working condition of the water treatment system corresponds to the purification of the water treatment system
Device backwash working condition.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
Water treatment system further has the 4th working condition and the 5th working condition, when the water treatment system be in this
When four working conditions, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C formed one respectively with valve body 11C should
First opening 1101C and the third be open eight connectivity channel 1008C that 1103C is connected, one respectively with valve body 11C's
7th opening 1107C and the 4th be open the 9th communicating passage 1009C that is connected of 1104C and one respectively with the valve body
The tenth communicating passage 10010C that the 9th opening 1109C of the 6th opening 1106C and flat valve 10C of 11C are connected;
When the water treatment system is in five working conditions, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C is formed
One the 11st communicating passage being connected respectively with the first opening 1101C of valve body 11C and the 6th opening 1106C
10011C and 1109C phase that is open respectively with the 9th of the 7th opening 1107C and flat valve 10C of valve body 11C the
12nd communicating passage 10012C of connection.
When the water treatment system according to the 4th preferred embodiment of the utility model is in four working conditions, the flat valve
10C formed eight connectivity channel 1008C respectively with valve body 11C this first opening 1101C and the third opening 1103C
It is connected, the 9th communicating passage 1009C is open with the 7th of valve body 11C opening 1107C and the 4th 1104C phase respectively
Connection, the tenth communicating passage 10010C respectively with the 6th of valve body 11C opening 1106C and flat valve 10C this
Nine opening 1109C are connected, so that raw water be allowed to be flowed into being somebody's turn to do for valve body 11C from first opening 1101C of valve body 11C
Then inner cavity 110C flows into third opening 1103C by eight connectivity channel 1008C, then flows into being somebody's turn to do for the ejector 32
Exit wound of bullet 321 mixes entry portal through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
322 flow into the 4th opening 1104C of valve body 11C, then flow into the 7th opening by the 9th communicating passage 1009C
1107C, into second lead-through opening 302 of the Softening box 31, after the softening resin in the counter-current regeneration Softening box 31, from this
The outflow of first lead-through opening 301, the 6th opening 1106C for then flowing through valve body 11C flow into the tenth communicating passage
10010C, then from the 9th opening 1109C outflow of flat valve 10C.Correspondingly, the 4th work of the water treatment system
State corresponds to softening filter core (softening plant) reproduction operation state of the water treatment system.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in five working conditions, the 11st communicating passage 10011C difference that flat valve 10C is formed
It is connected with the first opening 1101C of valve body 11C and the 6th opening 1106C, the 12nd communicating passage 10012C points
It is not connected with the 9th opening 1109C of the 7th opening 1107C and flat valve 10C of valve body 11C, to allow original
Water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then connects by the 11st
Circulation passage 10011C flows into the 6th opening 1106C, first lead-through opening 301 of the Softening box 31 is entered back into, to the softening
After material for water treatment or mechanism forward direction in case 31 rinse, flows out from second lead-through opening 302 of the Softening box 31, then flow
The 7th opening 1107C through valve body 11C flows into the 12nd communicating passage 10012C, then being somebody's turn to do from flat valve 10C
9th opening 1109C outflow.In other words, when the water treatment system is in five working conditions, at the utility model water
Reason system is controllable to softening filter core, as Softening box 31 carries out positive flushing.Correspondingly, the 5th work of the water treatment system
The softening filter core (softening plant) that state corresponds to the water treatment system just washes working condition.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
Water treatment system further has the 6th working condition and the 7th working condition, when the water treatment system be in this
When six working conditions, the moving valve plate 13C and fixed valve plate 12C of flat valve 10C formed one respectively with valve body 11C should
First opening 1101C and the 5th be open the tenth tee joint channel 10013C that is connected of 1105C and one respectively with the valve body
The 14th communicating passage that the 9th opening 1109C of the 6th opening 1106C and flat valve 10C of 11C are connected
10014C;When the water treatment system is in seven working conditions, the moving valve plate 13C and the fixed valve plate of flat valve 10C
12C forms the 15th company being connected respectively with the first opening 1101C of valve body 11C and the 4th opening 1104C
Circulation passage 10015C.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in six working conditions, the tenth tee joint channel 10013C difference that flat valve 10C is formed
It is connected with the first opening 1101C of valve body 11C and the 5th opening 1105C, the 14th communicating passage 10014C points
It is not connected with the 9th opening 1109C of the 6th opening 1106C and flat valve 10C of valve body 11C, to allow original
Water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then connects by the 13rd
Circulation passage 10013C flows into the 5th opening 1105C, enters back into the first connection opening 201 of the purification device 20, net to this
After material for water treatment or the flushing of mechanism forward direction in 20 are set in makeup, flowed out from the second connection opening 202 of the purification device 20,
The 6th opening 1106C for then flowing through valve body 11C flows into the 14th communicating passage 10014C, then from the flat valve
The 9th opening 1109C outflow of 10C.In other words, when the water treatment system is in six working conditions, this is practical new
Type water treatment system is controllable to carry out positive flushing to purification device 20.Correspondingly, the 6th work shape of the water treatment system
The purification device that state corresponds to the water treatment system just washes working condition.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, when according to the 4th preferred embodiment of the utility model
Water treatment system when being in seven working conditions, the 15th communicating passage 10015C difference that flat valve 10C is formed
It is connected with the first opening 1101C of valve body 11C and the 4th opening 1104C, to allow raw water from valve body 11C's
First opening 1101C is flowed into the inner cavity 110C of valve body 11C, is then flowed by the 15th communicating passage 10015C
4th opening 1104C, then the entry portal 322 of the ejector 32 is flowed into, to 33 moisturizing of brine tank.In other words, when the water
When processing system is in seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Correspondingly,
7th working condition of the water treatment system corresponds to the brine tank moisturizing working condition of the water treatment system.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, further, when according to the utility model the 4th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13C and the fixed valve plate of flat valve 10C
12C forms the 16th company being connected respectively with the first opening 1101C of valve body 11C and second opening 1102C
Circulation passage 10016C, so that when the water treatment system is in second working condition, the third working condition, the 4th work
When making state, the 5th working condition, the 6th working condition and seven working conditions, allow raw water from valve body 11C's
First opening 1101C is flowed into the inner cavity 110C of valve body 11C, is then flowed by the 16th communicating passage 10016C
Enter second opening 1102C of valve body 11C, and in second working condition, the third working condition, the 4th work shape
State, the 5th working condition, the 6th working condition and the 7th working condition provide raw water to user.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, further, when according to the utility model the 4th
The water treatment system of preferred embodiment is in second working condition, the 4th working condition, the 5th working condition, the 6th
When working condition and seven working conditions, the tenth of moving valve plate 13C and the fixed valve plate 12C formation of flat valve 10C the
Seven communicating passage 10017C permission raw water is flowed into the inner cavity of valve body 11C from first opening 1101C of valve body 11C
Then 110C flows into the 8th opening 1108C of valve body 11C by the 17th communicating passage 10017C, thus this
Two working conditions, the 4th working condition, the 5th working condition, the 6th working condition and the 7th working condition are to using
Person provides raw water.Further, when the water treatment system according to the 4th preferred embodiment of the utility model is in third work
When state, the tenth eight connectivity channel 10018C that the moving valve plate 13C and fixed valve plate 12C of flat valve 10C are formed allows
Raw water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then passes through the 18th
Communicating passage 10018C flows into the 8th opening 1108C of valve body 11C, to provide in the third working condition to user
Raw water.
Correspondingly, preferable according to the utility model the 4th as shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing
The fluid valve (or flat valve) 10C of the water treatment system of embodiment has first working position, second working position, one
A third working position, the 4th working position, the 5th working position, the 6th working position and the 7th working position,
In when fluid valve (or the flat valve) 10C is in first working position, the spool 1C (moving valve plate 13C of fluid valve 10C
First communicating passage 1001C, the second communicating passage 1002C and the third connecting channel are formed with the fixed valve plate 12C)
1003C, when fluid valve (or the flat valve) 10C is in second working position, the spool 1C of fluid valve 10C is formed should
4th communicating passage 1004C and the 5th communicating passage 1005C, when fluid valve (or the flat valve) 10C is in third work
When position, the spool 1C of fluid valve 10C forms the 6th communicating passage 1006C and the 7th communicating passage 1007C;It is preferred that
Ground, when fluid valve (or the flat valve) 10C is in four working positions, the spool 1C of fluid valve 10C forms the 8th
Communicating passage 1008C, the 9th communicating passage 1009C and the tenth communicating passage 10010C;When the fluid valve (or flat valve)
When 10C is in five working positions, the spool 1C of fluid valve 10C forms the 11st communicating passage 10011C and the tenth
Two communicating passage 10012C;It is highly preferred that when fluid valve (or the flat valve) 10C is in six working positions, the fluid valve
The spool 1C of 10C forms the tenth tee joint channel 10013C and the 14th communicating passage 10014C;When the fluid valve
When (or flat valve) 10C is in seven working positions, the spool 1C of fluid valve 10C forms the 15th communicating passage
10015C.Further, when the fluid valve (or flat valve) of the water treatment system according to the 4th preferred embodiment of the utility model
10C be in second working position, the third working position, the 4th working position, the 5th working position, the 6th working position and this
When seven working positions, the spool 1C of fluid valve 10C forms the 16th communicating passage 10016C.Further, when according to this
Fluid valve (or the flat valve) 10C of the water treatment system of the 4th preferred embodiment of utility model is in second working position, is somebody's turn to do
When the 4th working position, the 5th working position, the 6th working position and seven working positions, the spool 1C shape of fluid valve 10C
At the 17th communicating passage 10017C, when the fluid valve of the water treatment system according to the 4th preferred embodiment of the utility model
When (or flat valve) 10C is in the third working position, the spool 1C of fluid valve 10C forms the tenth eight connectivity channel
10018C。
As shown in Figure 105 A to Figure 105 F and Figure 107 A to Figure 108 G of attached drawing, according to the 4th preferred embodiment of the utility model
The flat valve 10C of water treatment system there is a first passage 101C, a second channel 102C, a third channel
103C, a fourth lane 104C, a Five-channel 105C, a 6th channel 106C, a 7th channel 107C, one
8th channel 108C, a 9th channel 109C, a tenth channel 1010C, a 11st channel 1011C, one the tenth
Two channel 1012C, a tenth triple channel 1013C and a tenth four-way 1014C, wherein first passage 101C, this
Two channel 102C, third channel 103C, fourth lane 104C, the Five-channel 105C, the 6th channel 106C, the 7th
Channel 107C, the 8th channel 108C, the 12nd channel 1012C and the tenth four-way 1014C are respectively arranged on the fixed valve plate
12C simultaneously extends from the first fluid control plane 120C of fixed valve plate 12C respectively;9th channel 109C, the tenth channel
1010C, the 11st channel 1011C and the tenth triple channel 1013C are respectively arranged on moving valve plate 13C and move valve from this respectively
The second fluid control plane 130C of piece 13C extends, wherein first passage 101C and second channel 102C respectively with this
Five opening 1105C are connected, and third channel 103C and fourth lane 104C are connected with the 7th opening 1107C respectively,
The Five-channel 105C is connected with second opening 1102C, and the 6th channel 106C is connected with third opening 1103C,
7th channel 107C is connected with the 4th opening 1104C, and the 8th channel 108C is connected with the 6th opening 1106C,
12nd channel 1012C is connected with the 8th opening 1108C, and this of the 9th channel 109C and valve body 11C first is opened
Mouth 1101C is connected (by the inner cavity 110C of valve body 11C), the 11st channel 1011C and the tenth four-way 1014C
It is connected, the tenth four-way 1014C is connected with the 9th opening 1109C.It is appreciated that the utility model purification device
6th opening of 20 the second connection opening 202 and first lead-through opening 301 of the Softening box 31 and valve body 11C
The connection of 1106C can be accomplished in several ways.As shown in Figure 96 B of attached drawing, the 6th opening 1106C of valve body 11C can
By one respectively with the purification device 20 this second be connected to opening 202 and the Softening box 31 first lead-through opening 301
The connecting pipeline (or triplate line) that is connected realizes the second connection opening 202, the Softening box 31 of the purification device 20
Connection between first lead-through opening 301 and the 6th opening 1106C of valve body 11C.Optionally, the purification device 20
The 6th opening 1106C of first lead-through opening 301 and valve body 11C of the second connection opening 202 and the Softening box 31
Connection can also by be arranged on valve body 11C communication paths realize, wherein the communication paths can be set respectively with this
The second connection opening 202 of purification device 20 is connected with the 6th opening 1106C of valve body 11C, and soft with this respectively
First lead-through opening 301 for changing case 31 is connected with the 6th opening 1106C of valve body 11C.Therefore, valve body 11C
8th channel 108C, the second connection opening 202 of the purification device 20 and first lead-through opening 301 of the Softening box 31
A three-port structure is formed by the 6th opening 1106C of valve body 11C.In addition, in order to ensure the inner cavity of valve body 11C
Water in 110C enters the 9th channel 109C, and the 9th channel 109C, which is set, to be connected always with exterior space by one
Logical water inlet 1091C holding is connected with the inner cavity 110C of valve body 11C always.
It is worth noting that, the first passage 101C and second channel 102C of flat valve 10C are respectively with the 5th
The connection of opening 1105C can be and respectively and by oneself be connected with the 5th opening 1105C, can also pass through one and flow
Body channel is connected;The third channel 103C and fourth lane 104C of flat valve 10C respectively with the 7th opening 1107C
Connection, can be and be connected respectively and by oneself with the 7th opening 1107C, can also be connected by a fluid channel
It is logical.For example, as shown in Figure 91 to Figure 108 G of attached drawing, the first passage 101C and second channel 102C of flat valve 10C
It is connected by a first fluid channel 1211C, second channel 102C, which is set, to be directly connected with the 5th opening 1105C
It is logical, to make first passage 101C by the first fluid channel 1211C and second channel 102C, also opened with the 5th
Mouth 1105C is connected;The third channel 103C and fourth lane 104C of flat valve 10C is separately opened with the 7th
Mouth 1107C is connected.Optionally, as shown in Figure 109 of attached drawing and Figure 110, first passage 101C be set directly with this
Five opening 1105C are connected, second channel 102C by the first fluid channel 1211C and first passage 101C, also with
5th opening 1105C is connected.Or optionally, the first passage 101C of flat valve 10C and second channel 102C
Discriminably and by oneself it is connected with the 5th opening 1105C;Or optionally, as shown in Figure 111 of attached drawing, the flat valve
The third channel 103C and fourth lane 104C of 10C is connected by a second fluid channel 1212C, the third channel
103C, which is set, to be directly connected with the 7th opening 1107C, so that fourth lane 104C be made to pass through the second fluid channel
1212C and third channel 103C is also connected with the 7th opening 1107C;Or optionally, such as Figure 112 institute of attached drawing
Show, the third channel 103C and fourth lane 104C of flat valve 10C is connected by a second fluid channel 1212C
Logical, fourth lane 104C, which is set, to be directly connected with the 7th opening 1107C, to make third channel 103C by being somebody's turn to do
Second fluid channel 1212C and fourth lane 104C is also connected with the 7th opening 1107C.It is appreciated that further
Ground, the first fluid channel 1211C and second fluid channel 1212C may be disposed at the first fluid of fixed valve plate 12C
Control plane 120C also may be disposed at the inside of valve body 11C or fixed valve plate 12C.It is appreciated that flat valve 10C's should
First passage 101C and second channel 102C respectively with the 5th opening 1105C connection and flat valve 10C the third
The channel 103C and fourth lane 104C connection with the 7th opening 1107C respectively, is also possible to company otherwise
It is logical.
As shown in Figure 108 A to Figure 108 G of attached drawing, according to this of the water treatment system of the 4th preferred embodiment of the utility model
The moving valve plate 13C of flat valve 10C can be rotated relative to fixed valve plate 12C so that flat valve 10C has first work
Make position, second working position and a third working position, wherein when flat valve 10C is in first working position, the plane
The 9th channel 109C of valve 10C is connected with first passage 101C, the tenth channel 1010C respectively with the third channel
103C is connected with the Five-channel 105C, the tenth triple channel 1013C respectively with the 8th channel 108C and the tenth two-way
Road 1012C is connected;When flat valve 10C is in second working position, the 9th channel 109C of flat valve 10C with should
Fourth lane 104C is connected, the 11st channel 1011C respectively with the 8th channel 108C and the tenth four-way 1014C phase
Connection;When flat valve 10C is in the third working position, the 8th channel 108C of flat valve 10C and the 9th channel
109C is connected, the 11st channel 1011C of flat valve 10C respectively with first passage 101C and the tenth four-way
1014C is connected, the tenth channel 1010C of flat valve 10C respectively with the 8th channel 108C and the 12nd channel
1012C is connected.
As shown in Figure 108 A to Figure 108 G of attached drawing, according to this of the water treatment system of the 4th preferred embodiment of the utility model
Flat valve 10C further has the 4th working position and the 5th working position, when flat valve 10C is in the 4th work
Position when, the 9th channel 109C of flat valve 10C is connected with the 6th channel 106C, the tenth channel 1010C respectively with
Fourth lane 104C is connected with the 7th channel 107C, the 11st channel 1011C respectively with the 8th channel 108C and
Tenth four-way 1014C is connected;When flat valve 10C is in five working positions, the 9th of flat valve 10C is logical
Road 109C is connected with the 8th channel 108C, the 11st channel 1011C of flat valve 10C respectively with the third channel
103C is connected with the tenth four-way 1014C.
As shown in Figure 108 A to Figure 108 G of attached drawing, according to this of the water treatment system of the 4th preferred embodiment of the utility model
Flat valve 10C further has the 6th working position and the 7th working position, when flat valve 10C is in the 6th
When working position, the 9th channel 109C of flat valve 10C is connected with second channel 102C, flat valve 10C this
11 channel 1011C are connected with the 8th channel 108C and the tenth four-way 1014C respectively;When flat valve 10C is in
When seven working positions, the 9th channel 109C of flat valve 10C is connected with the 7th channel 107C.
It is appreciated that when flat valve 10C is in first working position, according to the 4th preferred embodiment of the utility model
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109C and the first passage of flat valve 10C
101C is connected, thus formed first communicating passage 1001C, the tenth channel 1010C respectively with third channel 103C and
The Five-channel 105C is connected, to form second communicating passage 1002C, the tenth triple channel 1013C respectively with this
Eight channel 108C are connected with the 12nd channel 1012C, to form third connecting channel 1003C;When the flat valve
When 10C is in second working position, is controlled according to the water treatment system of the 4th preferred embodiment of the utility model and be in the softening
Filter core (softening plant) backwash working position, the 9th channel 109C of flat valve 10C are connected with fourth lane 104C, from
And form the 4th communicating passage 1004C, the 11st channel 1011C respectively with the 8th channel 108C and the tenth four-way
Road 1014C is connected, to form the 5th communicating passage 1005C;When flat valve 10C is in the third working position, according to
The water treatment system of the 4th preferred embodiment of the utility model, which is controlled, is in the purification device backwash working position, the flat valve
The 8th channel 108C of 10C is connected with the 9th channel 109C, so that the 6th communicating passage 1006C is formed, the tenth
One channel 1011C is connected with first passage 101C and the tenth four-way 1014C respectively, so that it is logical to form the 7th connection
Road 1007C.Further, when flat valve 10C is in four working positions, according to the 4th preferred embodiment of the utility model
Water treatment system, which is controlled, is in the softening filter core reproduction operation position, the 9th channel 109C and the 6th of flat valve 10C
Channel 106C is connected, to form eight connectivity channel 1008C, the tenth channel 1010C respectively with the fourth lane
104C is connected with the 7th channel 107C, so that the 9th communicating passage 1009C is formed, the 11st channel 1011C difference
It is connected with the 8th channel 108C and the tenth four-way 1014C, to form the tenth communicating passage 10010C;When this is flat
When face valve 10C is in five working positions, is controlled according to the water treatment system of the 4th preferred embodiment of the utility model and be in this
Working position is just washed in softening filter core (softening plant), and the 9th channel 109C of flat valve 10C is connected with the 8th channel 108C
It is logical, to form the 11st communicating passage 10011C, the 11st channel 1011C of flat valve 10C respectively with the third
Channel 103C is connected with the tenth four-way 1014C, to form the 12nd communicating passage 10012C.Further,
When flat valve 10C is in six working positions, according to the water treatment system of the 4th preferred embodiment of the utility model by control
When the purification device just washes working position, the 9th channel 109C of flat valve 10C is connected with second channel 102C, from
And form the tenth tee joint channel 10013C, the 11st channel 1011C of flat valve 10C respectively with the 8th channel
108C is connected with the tenth four-way 1014C, to form the 14th communicating passage 10014C;At flat valve 10C
When seven working positions, is controlled according to the water treatment system of the 4th preferred embodiment of the utility model and be in the brine tank moisturizing
9th channel 109C of working position, flat valve 10C is connected with the 7th channel 107C, to form the 15th connection
Channel 10015C.Preferably, the 11st channel 1011C can be the second fluid for being arranged on moving valve plate 13C
The conducting blind hole or conductance slot of control plane 130C, to be connected to the different channels of fixed valve plate 12C in corresponding working position, for example,
In the second working position connection (or conducting) the 8th channel 108C and the tenth four-way 1014C.It is appreciated that working as the plane
When valve 10C is in first working position, the tenth channel 1010C of flat valve 10C respectively with third channel 103C and should
Five-channel 105C is connected, and the moving valve plate 13C of flat valve 10C being somebody's turn to do the Five-channel 105C and valve body 11C
Inner cavity 110C is spaced, and the raw water in the 110C of the inner cavity to prevent valve body 11C enters the Five-channel 105C, the flat valve
The tenth triple channel 1013C of 10C is connected with the 8th channel 108C and the 12nd channel 1012C respectively, and the plane
The inner cavity 110C of 12nd channel 1012C and valve body 11C is spaced by the moving valve plate 13C of valve 10C, to prevent this
Raw water in the inner cavity 110C of valve body 11C enters the 12nd channel 1012C.
As shown in Figure 98 A to Figure 108 G of attached drawing, further, at the water according to the 4th preferred embodiment of the utility model
The flat valve 10C of reason system is in second working position, the third working position, the 4th working position, the 5th working position, is somebody's turn to do
When the 6th working position and seven working positions, the inner cavity 110C of the Five-channel 105C and valve body 11C of flat valve 10C
It is connected, to form the 16th communicating passage 10016C.Correspondingly, when the water according to the 4th preferred embodiment of the utility model
Processing system is in second working position, the third working position, the 4th working position, the 5th working position, the 6th working position
When with seven working positions, raw water is allowed to flow into the inner cavity of valve body 11C from first opening 1101C of valve body 11C
110C, and the valve body is further flowed to by the Five-channel 105C of fixed valve plate 12C from the inner cavity 110C of valve body 11C
Second opening 1102C of 11C.
As shown in Figure 98 A to Figure 108 G of attached drawing, further, at the water according to the 4th preferred embodiment of the utility model
The flat valve 10C of reason system be in second working position, the 4th working position, the 5th working position, the 6th working position and
When seven working positions, the inner cavity 110C of the 12nd channel 1012C and valve body 11C of flat valve 10C are connected, from
And form the 17th communicating passage 10017C.Correspondingly, when the water treatment system according to the 4th preferred embodiment of the utility model
When being in second working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, raw water
It is allowed to flow into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, and further from the valve body
The inner cavity 110C of 11C flows to the 8th opening of valve body 11C by the 12nd channel 1012C of fixed valve plate 12C
1108C.Further, when the flat valve 10C of the water treatment system according to the 4th preferred embodiment of the utility model is in this
When third working position, the 9th channel 109C of flat valve 10C is connected with the 8th channel 108C, the tenth channel
1010C is connected with the 8th channel 108C and the 12nd channel 1012C respectively, so that the 9th channel 109C and the tenth
Two channel 1012C are connected, to form the tenth eight connectivity channel 10018C.Correspondingly, when according to the utility model the 4th compared with
When the water treatment system of good embodiment is in the third working position, raw water is allowed to first opening from valve body 11C
1101C is flowed into the inner cavity 110C of valve body 11C, and it is fixed then to flow into this by the 9th channel 109C of moving valve plate 13C
The 8th channel 108C of valve block 12C enters fixed valve plate 12C by the tenth channel 1010C water conservancy diversion of moving valve plate 13C
The 12nd channel 1012C, then flow to valve body 11C the 8th opening 1108C.
As shown in Figure 98 A to Figure 108 G of attached drawing, correspondingly, when flat valve 10C is in the first working position, at the water
Reason machine is in purification-softening working condition, and raw water is flowed into being somebody's turn to do for valve body 11C from first opening 1101C of valve body 11C
Then inner cavity 110C flows into the first passage 101C of fixed valve plate 12C by the 9th channel 109C of moving valve plate 13C,
Then the first connection opening 201 for entering the purification device 20 by the 5th opening 1105C of valve body 11C, by this
After material for water treatment or the mechanism processing of purification device 20, water purification is flowed out from the second connection opening 202 of the purification device 20,
Then water purification is divided into two-way, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, by the Softening box 31
It after interior softening resin treatment, is flowed out from second lead-through opening 302 of the Softening box 31, then flows through being somebody's turn to do for valve body 11C
7th opening 1107C enters the third channel 103C of fixed valve plate 12C, by the tenth channel 1010C of moving valve plate 13C
Water conservancy diversion enters the Five-channel 105C of fixed valve plate 12C, then by second opening 1102C of valve body 11C to user
Water after supply sofening treatment, another way water purification flow through the 6th opening 1106C being somebody's turn to do into fixed valve plate 12C of valve body 11C
8th channel 108C enters the 12nd of fixed valve plate 12C by the tenth triple channel 1013C water conservancy diversion of moving valve plate 13C
Channel 1012C, most the 8th opening 1108C through valve body 11C flows out and supplies water purification to user afterwards;As flat valve 10C
When in the second working position, which is in softening filter core (softening plant) the backwash working condition, and raw water is from the valve body
First opening 1101C of 11C is flowed into the inner cavity 110C of valve body 11C, then logical by the 9th of moving valve plate 13C the
Road 109C flows into the fourth lane 104C of fixed valve plate 12C, is then entered by the 7th opening 1107C of valve body 11C
Second lead-through opening 302 of the Softening box 31, after the softening resin back flush in the Softening box 31, from the Softening box
31 first lead-through opening 301 outflow then flows through the 6th opening 1106C of valve body 11C, passes through the fixed valve plate
The tenth four-way of the 11st channel 1011C and fixed valve plate 12C of the 8th channel 108C and moving valve plate 13C of 12C
Road 1014C, then the 9th opening 1109C outflow from flat valve 10C;It, should when flat valve 10C is in third working position
Water treatment machine is in purification device backwash working condition, and raw water is flowed into the valve body from first opening 1101C of valve body 11C
The inner cavity 110C of 11C, then flow into fixed valve plate 12C by the 9th channel 109C of moving valve plate 13C the 8th are led to
Then road 108C enters the second connection opening 202 of the purification device 20 by the 6th opening 1106C of valve body 11C,
To in the purification device 20 material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening
201 outflows then flow through the 5th opening 1105C of valve body 11C, into the first passage 101C of fixed valve plate 12C,
The tenth four-way 1014C for passing through the 11st channel 1011C and fixed valve plate 12C of moving valve plate 13C is flat from this
The 9th opening 1109C outflow of face valve 10C.Further, when flat valve 10C is in four working positions, the water process
Machine is in the softening filter core reproduction operation state, and raw water is flowed into valve body 11C from first opening 1101C of valve body 11C
Inner cavity 110C, the 6th channel of fixed valve plate 12C is then flowed by the 9th channel 109C of moving valve plate 13C
Then 106C flows into the exit wound of bullet 321 of the ejector 32, by the jet stream by the third opening 1103C of valve body 11C
32 jet stream of device, the entry portal 322 through the ejector 32 flows into being somebody's turn to do for valve body 11C after mixing the liquid from the brine tank 33
4th opening 1104C, subsequently into the 7th channel 107C of fixed valve plate 12C, using the tenth channel of moving valve plate 13C
1010C water conservancy diversion enter fixed valve plate 12C fourth lane 104C, then flow through valve body 11C the 7th opening 1107C into
Enter second lead-through opening 302 of the Softening box 31, in the counter-current regeneration Softening box 31 as first led from this after softening resin
The outflow of mouth 301 is opened up, the 6th opening 1106C for then flowing through valve body 11C enters the 8th channel of fixed valve plate 12C
108C, then the tenth four-way 1014C of the 11st channel 1011C and fixed valve plate 12C by moving valve plate 13C, from
The 9th opening 1109C outflow of flat valve 10C;When flat valve 10C is in five working positions, which is in
The softening filter core (softening plant) just washes working condition, and raw water is flowed into the valve body from first opening 1101C of valve body 11C
The inner cavity 110C of 11C, then flow into fixed valve plate 12C by the 9th channel 109C of moving valve plate 13C the 8th are led to
Then road 108C enters first lead-through opening 301 of the Softening box 31 by the 6th opening 1106C of valve body 11C, right
After softening resin forward direction in the Softening box 31 is rinsed, flows out, then flow through from second lead-through opening 302 of the Softening box 31
The 7th opening 1107C of valve body 11C, pass through the third channel 103C of fixed valve plate 12C, moving valve plate 13C should
The tenth four-way 1014C of 11st channel 1011C and fixed valve plate 12C, then the 9th opening from flat valve 10C
1109C outflow.Further, when flat valve 10C is in six working positions, which is being in the purification device just
Working condition is washed, raw water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then leads to
The 9th channel 109C for crossing moving valve plate 13C flows into the second channel 102C of fixed valve plate 12C, then passes through the valve body
The 5th opening 1105C of 11C enters the first connection opening 201 of the purification device 20, to the water in the purification device 20
After handling material or the flushing of mechanism forward direction, from 202 outflow of the second connection opening of the purification device 20, the valve body is then flowed through
The 6th opening 1106C of 11C, into the 8th channel 108C of fixed valve plate 12C, pass through moving valve plate 13C this
The tenth four-way 1014C of 11 channel 1011C and fixed valve plate 12C, from the 9th opening 1109C of flat valve 10C
Outflow;When flat valve 10C is in seven working positions, which is in the brine tank moisturizing working condition, and raw water is certainly
First opening 1101C of valve body 11C is flowed into the inner cavity 110C of valve body 11C, then passes through moving valve plate 13C's
9th channel 109C flows into the 7th channel 107C of fixed valve plate 12C, then flows through the 4th opening of valve body 11C
1104C flows into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.Therefore, practical new according to this in each working position
The inner cavity 110C of the flat valve 10C of the water treatment system of the 4th preferred embodiment of type respectively with this first opening 1101C and
9th channel 109C is connected, so that first opening 1101C of flat valve 10C can pass through inner cavity 110C
It is connected with the 9th channel 109C, and realizes pending water in the different traffic organisings of each working position.In addition, practical according to this
The 9th opening 1109C of the flat valve 10C of the water treatment system of novel 4th preferred embodiment is open as blowdown, directly
Or the 11st channel 1011C of indirect communication flat valve 10C, it may be formed at the valve body 11C of flat valve 10C, it can also
It is formed in a drain outlet.
As shown in Figure 108 A to Figure 108 G of attached drawing, it is preferable that when flat valve 10C is in the first working position, this is flat
The second channel 102C and fourth lane 104C of face valve 10C is closed by moving valve plate 13C respectively;At flat valve 10C
When the second working position, the first passage 101C and third channel 103C of flat valve 10C is sealed by moving valve plate 13C respectively
It closes;When flat valve 10C is in third working position, the second channel 102C and third channel 103C of flat valve 10C
It is closed respectively by moving valve plate 13C;When flat valve 10C is in four working positions, the first passage of flat valve 10C
101C, second channel 102C and third channel 103C are closed by moving valve plate 13C respectively;When flat valve 10C is in the 5th
When working position, the second channel 102C and fourth lane 104C of flat valve 10C is closed by moving valve plate 13C respectively;When
When flat valve 10C is in six working positions, first passage 101C, the third channel 103C of flat valve 10C and this
Four-way 104C is closed by moving valve plate 13C respectively;When flat valve 10C is in seven working positions, flat valve 10C's should
6th channel 106C is closed by moving valve plate 13C.
As shown in Figure 108 A to Figure 108 G of attached drawing, it is highly preferred that when flat valve 10C is in the first working position, it should
The 6th channel 106C and the 7th channel 107C of flat valve 10C is closed by moving valve plate 13C, the 11st channel 1011C
It is connected with the tenth four-way 1014C;When flat valve 10C is in the second working position, the 7th of flat valve 10C the
Channel 107C is closed by moving valve plate 13C, and the tenth triple channel 1013C is connected with the 6th channel 106C, the flat valve
The tenth channel 1010C of 10C is connected with second channel 102C and the 8th channel 108C respectively;As flat valve 10C
When in third working position, the 6th channel 106C and the 7th channel 107C of flat valve 10C is respectively by moving valve plate 13C
Closing, the tenth triple channel 1013C of flat valve 10C are connected with fourth lane 104C;When flat valve 10C is in the
When four working positions, the tenth triple channel 1013C of flat valve 10C is connected with the Five-channel 105C;As flat valve 10C
When in five working positions, the 6th channel 106C and the 7th channel 107C of flat valve 10C is respectively by moving valve plate 13C
Closing, the tenth triple channel 1013C of flat valve 10C are connected with the 8th channel 108C, and the tenth of flat valve 10C the
Channel 1010C is connected with the 8th channel 108C and first passage 101C respectively;When flat valve 10C is in the 6th work
When position, the 6th channel 106C of flat valve 10C is closed by moving valve plate 13C, the tenth channel of flat valve 10C
1010C is connected with the 8th channel 108C, the tenth triple channel 1013C and the 7th channel 107C phase of flat valve 10C
Connection;When flat valve 10C is in seven working positions, the first passage 101C of flat valve 10C and the 8th channel
108C respectively by moving valve plate 13C close, the tenth channel 1010C of flat valve 10C respectively with second channel 102C and
Fourth lane 104C is connected, and the 11st channel 1011C is connected with the tenth four-way 1014C, flat valve 10C's
Tenth triple channel 1013C is connected with third channel 103C and the Five-channel 105C respectively.
It is worth noting that the first passage 101C of flat valve 10C, second channel 102C, the third channel
103C, fourth lane 104C, the Five-channel 105C, the 6th channel 106C, the 7th channel 107C, the 8th channel
108C, the 12nd channel 1012C and the tenth four-way 1014C be spaced respectively set on fixed valve plate 12C this is first-class
Body control plane 120C;9th channel 109C, the tenth channel 1010C, the 11st channel 1011C and the tenth triple channel
1013C is set to the second fluid control plane 130C of moving valve plate 13C with being spaced respectively.In other words, flat valve 10C
First passage 101C, it second channel 102C, third channel 103C, fourth lane 104C, the Five-channel 105C, is somebody's turn to do
6th channel 106C, the 7th channel 107C, the 8th channel 108C, the 12nd channel 1012C and the tenth four-way
1014C is respectively formed the access portal for being arranged on the first fluid control plane 120C of fixed valve plate 12C, and the 9th is logical
Road 109C, the tenth channel 1010C, the 11st channel 1011C and the tenth triple channel 1013C are respectively formed one and are set
In the access portal of the second fluid control plane 130C of moving valve plate 13C, when the moving valve plate 13C quilt cover of flat valve 10C
Opposite (second fluid control plane 130C) (first fluid control plane 120C) setting, and moving valve plate 13C determines valve with respect to this
When piece 12C is rotated, it is arranged on the channel of moving valve plate 13C and is arranged on the channel of fixed valve plate 12C by leading to accordingly
Road opening be selectively connectable it is logical, thus formed corresponding communicating passage and control fluid (such as water flow) flow direction.
It is appreciated that the first passage 101C of flat valve 10C, second channel 102C, third channel 103C, is somebody's turn to do
Fourth lane 104C, the Five-channel 105C, the 6th channel 106C, the 7th channel 107C, the 8th channel 108C, this
Nine channel 109C, the tenth channel 1010C, the 11st channel 1011C, the 12nd channel 1012C, the tenth triple channel
1013C and the tenth four-way 1014C can have any extension path (or side that can be realized interconnected relationship herein
To);The first passage 101C of flat valve 10C, second channel 102C, third channel 103C, fourth lane 104C,
The Five-channel 105C, the 6th channel 106C, the 7th channel 107C, the 8th channel 108C, the 12nd channel 1012C
The access portal of the first fluid control plane 120C of fixed valve plate 12C is respectively formed at the tenth four-way 1014C, and should
9th channel 109C, the tenth channel 1010C, the 11st channel 1011C and the tenth triple channel 1013C are respectively formed at this
The access portal of the second fluid control plane 130C of moving valve plate 13C, can have it is any can be realized herein be interconnected close
The shape of system.For example, the 8th channel 108C is formed in the access portal of the first fluid control plane 120C of fixed valve plate 12C
It can be provided having a regular shape, can also be arranged to that there is an irregular shape.Therefore, flat valve 10C should
First passage 101C, second channel 102C, third channel 103C, fourth lane 104C, the Five-channel 105C, this
Six channel 106C, the 7th channel 107C, the 8th channel 108C, the 9th channel 109C, the tenth channel 1010C, this
The extension road of 11 channel 1011C, the 12nd channel 1012C, the tenth triple channel 1013C and the tenth four-way 1014C
The shape of diameter (or direction) and its access portal should not become limitations of the present invention.
As shown in Figure 98 A to Figure 108 G of attached drawing, it is preferable that channel herein is closed, and refers to respective channel shape
At the second fluid control of the first fluid control plane 120C and moving valve plate 13C of the fixed valve plate 12C in flat valve 10C
The access portal of face 130C is in the specific works position (or working condition of water treatment system) of flat valve 10C, by the moving valve plate
The entity part of 13C and fixed valve plate 12C covers, and can not be connected by access portal so as to cause between respective channel.Example
Such as, when flat valve 10C is in the first working position, the 6th of the entity part face of moving valve plate 13C flat valve 10C the
Channel 106C and the 7th channel 107C is formed in the access portal of the first fluid control plane 120C of fixed valve plate 12C, thus
Make the 6th channel 106C and the 7th channel 107C of flat valve 10C by moving valve plate 13C closing (or obstruction).Accordingly
Ground is arranged on being connected between the channel of moving valve plate 13C and the channel for being arranged on fixed valve plate 12C herein, refers to
It is to be arranged on the channel of moving valve plate 13C in the specific works position (or working condition of water treatment system) of flat valve 10C
It is formed in the access portal of the second fluid control plane 130C of moving valve plate 13C and is arranged on the channel of fixed valve plate 12C
Form access portal selectively part or just alignment and the formation permission of the first fluid control plane 120C of fixed valve plate 12C
The water-flowing path that water flow passes through.For example, when flat valve 10C is in the first working position, the 9th channel of flat valve 10C
109C aligns with first passage 101C, to both make first communicating passage 1001C that is connected and formed, the tenth is logical
Road 1010C aligns with third channel 103C and the Five-channel 105C respectively, thus both make to be connected and be formed this
Two communicating passage 1002C, the tenth triple channel 1013C are opposite with the 8th channel 108C and the 12nd channel 1012C respectively
Together, to both make the third connecting channel 1003C that is connected and formed.
As shown in Figure 105 A to Figure 105 F and Figure 107 A to Figure 107 D of attached drawing, according to the 4th preferred embodiment of the utility model
The first passage 101C of flat valve 10C of water treatment system, the 8th channel 108C, second channel 102C, this
Four-way 104C, the 7th channel 107C, the 6th channel 106C, third channel 103C and the Five-channel 105C are suitable with this
Sequence is deasil arranged in fixed valve plate 12C;The 11st channel 1011C of flat valve 10C, it the tenth channel 1010C, is somebody's turn to do
9th channel 109C and the tenth triple channel 1013C is deasil arranged in moving valve plate 13C with this sequence.Optionally, this is flat
It is the first passage 101C of face valve 10C, the 8th channel 108C, second channel 102C, fourth lane 104C, the 7th logical
Road 107C, the 6th channel 106C, third channel 103C and the Five-channel 105C are widdershins arranged in this with this sequence
Fixed valve plate 12C;The 11st channel 1011C of flat valve 10C, the tenth channel 1010C, the 9th channel 109C and should
Tenth triple channel 1013C is widdershins arranged in moving valve plate 13C with this sequence.
As shown in Figure 105 A to Figure 105 F and Figure 107 A to Figure 107 D of attached drawing, according to the 4th preferred embodiment of the utility model
The fixed valve plate 12C of flat valve 10C of water treatment system have that a first central part 121C, one from first center
The outwardly extending first extension 122C of portion 121C and one are from the outwardly extending first edge portion of first extension 122C
123C, moving valve plate 13C prolong with a second central part 131C, one from second central part 131C outwardly extending second
Extending portion 132C and one from the second extension outwardly extending second edge portion 133C of 132C, wherein fixed valve plate 12C should
First fluid control plane 120C has central part 1200C shown in a figure chain lines, wherein central part 1200C quilt
Set on first central part 121C of fixed valve plate 12C, and except the central part 1200C of first fluid control plane 120C
Part be divided into a first part 1201C, a second part 1202C shown in chain-dotted line, a third clockwise
Part 1203C, a Part IV 1204C, a Part V 1205C, a Part VI 1206C, a Part VII
1207C, a Part VIII 1208C, a Part IX 1209C, a Part X 12010C and one the tenth a part
12011C;The second fluid control plane 130C of the moving valve plate 13C of flat valve 10C has shown in a figure chain lines
Central area 1300, wherein central area 1300C is set to second central part 131C of moving valve plate 13C, and the second
Part except the central area 1300C of body control plane 130C is divided into a first area shown in chain-dotted line clockwise
1301C, a second area 1302C, a third region 1303C, a fourth region 1304C, the 5th region
1305C, a 6th region 1306C, a District 7 domain 1307C, a Section Eight domain 1308C, the 9th region
1309C, a tenth region 13010C and a 11st region 13011C;Wherein first passage 101C is from first fluid control
The first part 1201C of face 120C processed is extended downwardly;8th channel 108C is controlled from the first fluid of fixed valve plate 12C
The second part 1202C of face 120C, Part III 1203C, Part IV 1204C and Part V 1205C are downward
Extend;Second channel 102C is from the Part VI 1206C of the first fluid control plane 120C of fixed valve plate 12C to downward
It stretches;Fourth lane 104C is from the Part VII 1207C of the first fluid control plane 120C of fixed valve plate 12C to downward
It stretches;The Part VIII 1208C of 7th channel 107C from first fluid control plane 120C are extended downwardly;6th channel
The Part IX 1209C of 106C from first fluid control plane 120C are extended downwardly;Third channel 103C is first-class from this
The Part X 12010C of body control plane 120C is extended downwardly;The Five-channel 105C is from first fluid control plane 120C
Part X 12010C and the tenth a part of 12011C extend downwardly;12nd channel 1012C is from the first fluid
The Part III 1203C of control plane 120C is extended downwardly;Wherein the tenth four-way 1014C is from the first fluid control plane
The central part 1200C of 120C is extended downwardly;9th channel 109C is from firstth area of second fluid control plane 130C
Domain 1301C is upwardly extended;11st channel 1011C extends from the central area 1300C of second fluid control plane 130C
To the Section Eight domain 1308C of second fluid control plane 130C;Tenth channel 1010C is from second fluid control plane 130C
The tenth region 13010C and the 11st region 13011C upwardly extend;Tenth triple channel 1013C is from the second fluid
The third region 1303C of control plane 130C is upwardly extended.
It is appreciated that when the second fluid control plane 130C of moving valve plate 13C be arranged on fixed valve plate 12C this
When one fluid control plane 120C, the second central part 131C face of the second fluid control plane 130C of moving valve plate 13C should
The second fluid of first central part 121C, moving valve plate 13C of the first fluid control plane 120C of fixed valve plate 12C control
First extension of the first fluid control plane 120C of the second extension 132C face fixed valve plate 12C of face 130C
Second edge portion 133C face fixed valve plate 12C of the second fluid control plane 130C of 122C, moving valve plate 13C this
The first edge portion 123C of one fluid control plane 120C.
Optionally, the first fluid control plane 120C and moving valve plate 13C of the fixed valve plate 12C of flat valve 10C this second
Fluid control plane 130C is circle, first passage 101C, second channel 102C, third channel 103C, the four-way
Road 104C, the Five-channel 105C, the 6th channel 106C, the 7th channel 107C, the 8th channel 108C and the 12nd
Channel 1012C is radially set to the first fluid control plane 120C of fixed valve plate 12C, and the 9th channel 109C, this
Ten channel 1010C and the tenth triple channel 1013C are radially set to the second fluid control plane 130C of moving valve plate 13C.
Preferably, the first passage 101C of flat valve 10C, second channel 102C, third channel 103C, this
Four-way 104C, the 6th channel 106C, the 7th channel 107C and the 8th channel 108C are respectively set at the fixed valve plate
First extension 122C, the Five-channel 105C of the first fluid control plane 120C of 12C is arranged on the first fluid
The first edge portion 123C, the 12nd channel 1012C of control plane 120C is arranged on first fluid control plane 120C's
First edge portion 123C.It is highly preferred that the Five-channel 105C be arranged on first fluid control plane 120C this first
Edge part 123C simultaneously extends inwardly to first fluid control from the first edge portion 123C of first fluid control plane 120C
First extension 122C of face 120C.
Preferably, it is dynamic to be respectively set at this by the 9th channel 109C and the 11st channel 1011C of flat valve 10C
Second extension 132C, the tenth channel 1010C and the tenth triple channel of the second fluid control plane 130C of valve block 13C
1013C be respectively set at the second edge portion 133C of the second fluid control plane 130C of moving valve plate 13C and from this
Two edge part 133C extend inwardly to second extension 132C.
Preferably, first fluid control plane 120C of the first passage 101C of flat valve 10C from fixed valve plate 12C
It extends downwardly and outwardly, second channel 102C downwardly and outwardly prolongs from the first fluid control plane 120C of fixed valve plate 12C
It stretches, third channel 103C is extended downwardly and outwardly from the first fluid control plane 120C of fixed valve plate 12C, the four-way
Road 104C extends downwardly and outwardly from the first fluid control plane 120C of fixed valve plate 12C, the Five-channel 105C from this determines valve
The first fluid control plane 120C of piece 12C extends downwardly and outwardly, the 6th channel 106C is from the first fluid of fixed valve plate 12C
Control plane 120C is extended downwardly and outwardly, the first fluid control plane 120C of the 7th channel 107C from fixed valve plate 12C are downward
With extend outwardly, the 8th channel 108C is extended downwardly and outwardly from the first fluid control plane 120C of fixed valve plate 12C, should
12nd channel 1012C is extended downwardly and outwardly from the first fluid control plane 120C of fixed valve plate 12C, the tenth four-way
Road 1014C is extended downwardly and outwardly from the first fluid control plane 120C of fixed valve plate 12C.
As shown in Figure 91 to Figure 97 of attached drawing, according to the plane of the water treatment system of the 4th preferred embodiment of the utility model
The valve body 11C of valve 10C has an inner wall 111C, and wherein fixed valve plate 12C is suitable for first fluid control plane 120C upward
Ground is set to inner cavity 110C and moving valve plate 13C and is set to inner cavity 110C facing downward suitable for second fluid control plane 130C,
In inner cavity 110C be connected always with the 9th channel 109C.It is worth noting that, the fixed valve plate 12C of flat valve 10C
The inner wall 111C of valve body 11C can be removably disposed in, can also with the valve body 11C of flat valve 10C this is interior
Wall 111C phase is integrally formed.It will be understood by those skilled in the art that when fixed valve plate 12C is removably disposed in the valve body
When in 11C, fixed valve plate 12C and the valve body are kept by a fixed mechanism between fixed valve plate 12C and valve body 11C
Synchronization between 11C.For example, fixed valve plate 12C is with one from fixed valve plate 12C's as shown in Figure 91 to Figure 97 of attached drawing
The inner wall 111C of the outwardly projecting brake component 123C in edge, valve body 11C have a breaker slot 1110C, and wherein this determines valve
The brake component 123C of piece 12C, which is set, to be meshed with the breaker slot 1110C of the inner wall 111C of valve body 11C, with
Ensure to be synchronised between fixed valve plate 12C and valve body 11C (or will not relatively rotate) and ensure to be arranged on this and determines valve
Each channel of piece 12C is connected with the corresponding opening for being arranged on valve body 11C.It is appreciated that working as fixed valve plate 12C quilt
When being removably disposed in valve body 11C, fixed valve plate 12C is separately manufactured.In other words, at this point, fixed valve plate 12C
It can be made of wear-resistant material, to improve the service life of fixed valve plate 12C (or entire flat valve).Preferably, the fixed valve plate
The smoothed processing of the first fluid control plane 120C of 12C is to reduce its degree of roughness.
As shown in Figure 91 to Figure 97 of attached drawing, according to the plane of the water treatment system of the 4th preferred embodiment of the utility model
Valve 10C further comprises the driving element 18C upwardly extended from moving valve plate 13C, and wherein driving element 18C is set
The moving valve plate 13C of flat valve 10C can be driven to rotate with respect to fixed valve plate 12C.
As shown in Figure 91 to Figure 97 of attached drawing, according to the plane of the water treatment system of the 4th preferred embodiment of the utility model
Valve 10C further comprises a sealing element 17C, and wherein sealing element 17C is set facing with driving element 18C
Face, wherein sealing element 17C forms a primary sealing area 170C, and driving element 18C forms a secondary sealing area
180C, wherein the primary sealing area 170 of sealing element 17C is arranged on the secondary sealing area of driving element 18C
180, so that when driving element 18C is rotated relative to sealing element 17C, to drive moving valve plate 13C to determine valve with respect to this
When piece 12C is rotated, the leakage of water is sealed and prevented between driving element 18C and sealing element 17C.In addition, the sealing
Element 17C, which is set, to be able to maintain driving element 18C and is in appropriate location, thus keep moving valve plate 13C be in one it is pre-
If position.
As shown in Figure 91 to Figure 97 of attached drawing, according to the plane of the water treatment system of the 4th preferred embodiment of the utility model
The diameter of the slightly smaller than inner cavity 110C of valve body 11C is set in the diameter of the moving valve plate 13C of valve 10C, so that the plane
The 9th channel 109C of valve 10C can keep being connected with the inner cavity 110C of valve body 11C by the water inlet 1091.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
The control device 16C of the flat valve 10C of water treatment system, which is set, to be led to according to a purification-softening control instruction
A transmission mechanism 14C is crossed, such as transmission gear drives driving element 18C to rotate, to drive the dynamic valve of flat valve 10C
Piece 13C is rotated relative to fixed valve plate 12C, to form the inner cavity 110C with the valve body 11C of flat valve 10C respectively
With the 5th opening 1105C be connected the first communicating passage 1001C, one respectively with valve body 11C this second opening
The the second communicating passage 1002C that is connected of opening 1107C of 1102C and the 7th and one respectively with valve body 11C the 6th
The third connecting channel 1003C that opening 1106C is connected with the 8th opening 1108C, to allow raw water from valve body 11C's
The 5th opening of inner cavity 110C, first communicating passage 1001C formed by flat valve 10C, valve body 11C
1105C, the purification device 20 the first connection opening 201 flow into the purification device 20, raw water is net by the purification device 20
The water purification obtained after change processing is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way, wherein
Water purification flows into the Softening box 31 through first lead-through opening 301 of the Softening box 31 all the way, and is softened after softened processing
Water, softened water are flowed out from second lead-through opening 302 of the Softening box 31, then the 7th opening through valve body 11C
Second communicating passage 1002C of 1107C, flat valve 10C, most afterwards through valve body 11C this second opening 1102C outflow and
Softened water is supplied to user, another way water purification flows through the third of the 6th opening 1106C of valve body 11C, flat valve 10C
Communicating passage 1003C, most the 8th opening 1108C through valve body 11C flows out and supplies water purification to user afterwards;It is soft according to one
Change filter core (softening plant) backwash control instruction, by transmission mechanism 14C, such as transmission gear drives driving element 18C to turn
It is dynamic, to drive the moving valve plate 13C of flat valve 10C to rotate relative to fixed valve plate 12C, put down respectively with this to form one
The 4th communicating passage 1004C and one that the inner cavity 110C of the valve body 11C of face valve 10C is connected with the 7th opening 1107C
A the 5th to be connected respectively with the 9th opening 1109C of the 6th opening 1106C and flat valve 10C of valve body 11C
Communicating passage 1005C, to allow raw water to be flowed into the inner cavity of valve body 11C from first opening 1101C of valve body 11C
Then 110C flows into the 7th opening 1107C by the 4th communicating passage 1004C that flat valve 10C is formed, then soft through this
Second lead-through opening 302 for changing case 31 flows into the Softening box 31, and to softener material (or the water process material in the Softening box 31
Material), such as softening resin, after back flush, obtained sewage or waste water is flowed from first lead-through opening 301 of the Softening box 31
Out, the 6th opening 1106C for then flowing through valve body 11C flows into the 5th communicating passage 1005C of flat valve 10C, so
Afterwards from the 9th of flat valve 10C opening 1109C outflow, meanwhile, it also forms one and second is opened with this of valve body 11C respectively
The 16th communicating passage 10016C that mouthful 1102C is connected with inner cavity 110C, with allow raw water from valve body 11C this first
Opening 1101C is flowed into the inner cavity 110C of valve body 11C, then flows into the valve body by the 16th communicating passage 10016C
Second opening 1102C of 11C, provides raw water to user, also forms one and be open respectively with the 8th of valve body 11C the
The 17th communicating passage 10017C that 1108C is connected with inner cavity 110C, with allow raw water from valve body 11C this first
Opening 1101C is flowed into the inner cavity 110C of valve body 11C, then flows into the valve by the 17th communicating passage 10017C
The 8th opening 1108C of body 11C, provides raw water to user;According to a purification device backwash control instruction, pass through the biography
Motivation structure 14C, such as transmission gear drive driving element 18C to rotate, to drive the moving valve plate 13C of flat valve 10C opposite
Fixed valve plate 12C rotation is connected with the opening of the inner cavity 110C of valve body 11C and the 6th 1106C respectively to form one
The 6th logical communicating passage 1006C and one respectively with the 5th opening 1105C and flat valve 10C of valve body 11C this
The 7th communicating passage 1007C that 9th opening 1109C is connected, to allow first opening 1101C of the raw water from valve body 11C
It is flowed into the inner cavity 110C of valve body 11C, the 6th opening 1106C is then flowed by the 6th communicating passage 1006C,
Enter back into the purification device 20 this second connection opening 202, in the purification device 20 material for water treatment or mechanism it is reversed
After flushing, from 201 outflow of the first connection opening of the purification device 20, the 5th opening of valve body 11C is then flowed through
1105C flows into the 7th communicating passage 1007C, then from the 9th opening 1109C outflow of flat valve 10C, meanwhile, go back shape
The 16th communicating passage being connected respectively with second opening 1102C and inner cavity 110C of valve body 11C at one
10016C, to allow raw water to be flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then
Second opening 1102C that valve body 11C is flowed by the 16th communicating passage 10016C, provides raw water to user, also
Form a tenth eight connectivity channel being connected respectively with the 8th opening 1108C and inner cavity 110C of valve body 11C
10018C, to allow raw water to be flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, so
The 8th opening 1108C for flowing into valve body 11C by the tenth eight connectivity channel 10018C afterwards, provides raw water to user.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
The control device 16C of the flat valve 10C of water treatment system is further set can be according to a softening filter core regeneration control
System instruction, by transmission mechanism 14C, such as transmission gear drives driving element 18C to rotate, to drive flat valve 10C's
Moving valve plate 13C is rotated relative to fixed valve plate 12C, thus formed one respectively with the inner cavity 110C of valve body 11C and this
Eight connectivity channel 1008C that three opening 1103C are connected, a 1107C and should of being open respectively with the 7th of valve body 11C
The 9th communicating passage 1009C and the 1106C that is open respectively with the 6th of valve body 11C that 4th opening 1104C is connected
The tenth communicating passage 10010C being connected with the 9th opening 1109C of flat valve 10C, to allow raw water from the valve body
First opening 1101C of 11C is flowed into the inner cavity 110C of valve body 11C, is then flowed by the eight connectivity channel 1008C
Enter third opening 1103C, then flow into the exit wound of bullet 321 of the ejector 32, by 32 jet stream of ejector, mixing comes from should
The entry portal 322 after the liquid of brine tank 33 through the ejector 32 flows into the 4th opening 1104C of valve body 11C, then
The 7th opening 1107C is flowed by the 9th communicating passage 1009C, into second lead-through opening 302 of the Softening box 31,
After softening resin in the counter-current regeneration Softening box 31, is flowed out from first lead-through opening 301, then flow through valve body 11C's
6th opening 1106C flows into the tenth communicating passage 10010C, then from the 9th opening 1109C stream of flat valve 10C
Out, meanwhile, also formed one respectively with valve body 11C this second opening 1102C and inner cavity 110C be connected the 16th
Communicating passage 10016C, to allow raw water to be flowed into the inner cavity of valve body 11C from first opening 1101C of valve body 11C
Then 110C is flowed into second opening 1102C of valve body 11C by the 16th communicating passage 10016C, mentioned to user
For raw water, the 17th company being connected respectively with the 8th opening 1108C and inner cavity 110C of valve body 11C is also formed
Circulation passage 10017C, to allow raw water to be flowed into the inner cavity of valve body 11C from first opening 1101C of valve body 11C
Then 110C is flowed into the 8th opening 1108C of valve body 11C by the 17th communicating passage 10017C, mentioned to user
For raw water;Control instruction is just washed according to a softening filter core (softening plant), by transmission mechanism 14C, such as transmission gear,
Driving element 18C is driven to rotate, to drive the moving valve plate 13C of flat valve 10C to rotate relative to fixed valve plate 12C, thus
Form the 11st communicating passage being connected respectively with the opening of the inner cavity 110C of valve body 11C and the 6th 1106C
10011C and 1109C phase that is open respectively with the 9th of the 7th opening 1107C and flat valve 10C of valve body 11C the
12nd communicating passage 10012C of connection, to allow raw water to be flowed into the valve from first opening 1101C of valve body 11C
Then the inner cavity 110C of body 11C flows into the 6th opening 1106C by the 11st communicating passage 10011C, enters back into this
First lead-through opening 301 of Softening box 31, in the Softening box 31 material for water treatment or mechanism forward direction rinse after, it is soft from this
Second lead-through opening 302 outflow for changing case 31, the 7th opening 1107C for then flowing through valve body 11C flow into the 12nd
Communicating passage 10012C, then from the 9th of flat valve 10C opening 1109C outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016C that second opening 1102C of valve body 11C is connected with inner cavity 110C, to allow raw water certainly
First opening 1101C of valve body 11C is flowed into the inner cavity 110C of valve body 11C, then logical by the 16th connection
Road 10016C flow into valve body 11C this second opening 1102C, to user provide raw water, also formed one respectively with the valve
The 17th communicating passage 10017C that the 8th opening 1108C of body 11C is connected with inner cavity 110C, to allow raw water certainly should
First opening 1101C of valve body 11C is flowed into the inner cavity 110C of valve body 11C, then passes through the 17th communicating passage
10017C flows into the 8th opening 1108C of valve body 11C, provides raw water to user.
As shown in Figure 98 A to Figure 104 and Figure 106 A to Figure 106 G of attached drawing, according to the 4th preferred embodiment of the utility model
The control device 16C of the flat valve 10C of water treatment system, which is further set, just to wash control according to a purification device
System instruction, by transmission mechanism 14C, such as transmission gear drives driving element 18C to rotate, to drive flat valve 10C's
Moving valve plate 13C is rotated relative to fixed valve plate 12C, thus formed one respectively with the inner cavity 110C of valve body 11C and this
The tenth tee joint channel 10013C and the 1106C that is open respectively with the 6th of valve body 11C that five opening 1105C are connected
The 14th communicating passage 10014C being connected with the 9th opening 1109C of flat valve 10C, to allow raw water from the valve body
First opening 1101C of 11C is flowed into the inner cavity 110C of valve body 11C, then passes through the tenth tee joint channel
10013C flows into the 5th opening 1105C, the first connection opening 201 of the purification device 20 is entered back into, to the purification device
After material for water treatment or mechanism forward direction in 20 rinse, from 202 outflow of the second connection opening of the purification device 20, then flow
The 6th opening 1106C through valve body 11C flows into the 14th communicating passage 10014C, then being somebody's turn to do from flat valve 10C
9th opening 1109C outflow, meanwhile, also formed one respectively with valve body 11C this second opening 1102C and inner cavity 110C
The 16th communicating passage 10016C being connected, to allow raw water to be flowed into the valve from first opening 1101C of valve body 11C
Then the inner cavity 110C of body 11C flows into second opening of valve body 11C by the 16th communicating passage 10016C
1102C provides raw water to user, also forms the 1108C and inner cavity 110C that is open respectively with the 8th of valve body 11C the
The 17th communicating passage 10017C being connected, to allow raw water to be flowed into the valve from first opening 1101C of valve body 11C
Then the inner cavity 110C of body 11C flows into the 8th opening of valve body 11C by the 17th communicating passage 10017C
1108C provides raw water to user;According to a moisturizing control instruction, pass through transmission mechanism 14C, such as transmission gear, driving
Driving element 18C rotation, to drive the moving valve plate 13C of flat valve 10C to rotate relative to fixed valve plate 12C, to be formed
One the 15th communicating passage 10015C being connected respectively with the opening of the inner cavity 110C of valve body 11C and the 4th 1104C,
To allow raw water to be flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then by should
15th communicating passage 10015C flows into the 4th opening 1104C, then flows into the entry portal 322 of the ejector 32, to saline solution
33 moisturizing of case, meanwhile, also formation one is connected with second opening 1102C and inner cavity 110C of valve body 11C respectively
16th communicating passage 10016C, to allow raw water to be flowed into valve body 11C's from first opening 1101C of valve body 11C
Then inner cavity 110C flows into second opening 1102C of valve body 11C, to making by the 16th communicating passage 10016C
User provides raw water, also formed one be connected respectively with the 8th of valve body 11C opening 1108C and inner cavity 110C the
17 communicating passage 10017C, to allow raw water to be flowed into being somebody's turn to do for valve body 11C from first opening 1101C of valve body 11C
Then inner cavity 110C flows into the 8th opening 1108C of valve body 11C, to using by the 17th communicating passage 10017C
Person provides raw water.
It is worth noting that, correspondingly, when the water treatment system according to the 4th preferred embodiment of the utility model be in this
Two working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016C is visual
The a part in water route is supplied for first raw water), wherein first raw water supply water route, which is set, allows raw water that can flow through this
Raw water is supplied water route and is provided by second opening 1102C of valve body 11C;When according to the preferably implementation of the utility model the 4th
The water treatment system of example is in second working condition, the third working condition, the 4th working condition, the 5th work shape
When state, the 6th working condition and seven working conditions, which forms second raw water and supplies water route, wherein
Second raw water supply water route, which is set, allows raw water that can flow through raw water supply water route and by the 8th of valve body 11C
Opening 1108C is provided.Preferably, the water treatment system is in second working condition, the 4th working condition, the 5th work
Second raw water that state, the 6th working condition and the 7th working condition are formed supplies water route (the 17th communicating passage
10017C participates in being formed, can be considered second raw water supply water route a part) and the water treatment system the third work shape
(the tenth eight connectivity channel 10018C participates in being formed, and can be considered that second raw water supplies in morphogenetic second raw water supply water route
Answer a part in water route) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of control device 16C, can also pass through an electronics
Communication network passes through an input interface input received from a controlling terminal, or by user.For example, working as the utility model
Water treatment system is provided having the input interface for flat valve 10C, when such as Trackpad or control button, uses
Person can send above-mentioned control instruction to the control module of control device 16C by touch panel or corresponding control button, with
The control module of control device 16C is set to control the motor rotation of control device 16C, to pass through a transmission mechanism 14C
Driving element 18C is driven to rotate.
As shown in Figure 91 to Figure 92, Figure 106 A to Figure 106 G of attached drawing, according to the water of the 4th preferred embodiment of the utility model
Processing system illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element,
In the purification device 20 include that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on the shell
Filter house 23 in body 21, wherein the filter house 23 can be ultrafiltration silk, net type filter or the lamination for ultra-filtration filters
Formula filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, as attached drawing it
Shown in Figure 106 A to Figure 106 G, the softening plant 30 of the utility model water treatment system includes a Softening box 31, wherein should
Softening box 31 includes 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, and wherein the cabinet 311 has
One softening chamber, 3110, first lead-through openings 301 and second lead-through opening 302, wherein the liquid collecting unit 312 include
One central tube 3121, the water pliable cell 313 are suitable for being contained within the softening chamber 3110, and wherein the central tube 3121 is suitable
It is connected in second lead-through opening 302, wherein the central tube 3121 has one high end opening 31211 and a low side
Opening 31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting unit
The low side opening 31212 of 312 central tube 3121 flows into the central tube 3121 and the high end opening 31211 from the central tube 3121
Outflow;Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, has the property of softening
Active carbon or other similar softener materials of energy or combinations thereof.
It is appreciated that first passage 101C, being somebody's turn to do to strengthen the structural strength of the fixed valve plate 12C of flat valve 10C
Second channel 102C, it third channel 103C, fourth lane 104C, the Five-channel 105C, the 6th channel 106C, is somebody's turn to do
7th channel 107C, the 8th channel 108C and the 12nd channel 1012C can be split by reinforcing entity structure or
Separate into two adjacent slightly smaller channels.For example, as shown in Figure 113 to Figure 116 G of attached drawing, it is preferable according to the utility model the 4th
The 8th channel 108C of the fixed valve plate 12C of the flat valve 10C of the water treatment system of embodiment by a ribs or
Reinforcing rib is spaced into the slightly smaller channel 1081C and channel 1082C of two internal diameters, wherein when flat valve 10C be in this first
When working position, the tenth triple channel 1013C of flat valve 10C respectively with channel 1081C and the 12nd channel 1012C phase
Connection, to form third connecting channel 1003C;When flat valve 10C is in second working position, flat valve 10C
The 11st channel 1011C be connected respectively with channel 1081C and the tenth four-way 1014C, to form the 5th
Communicating passage 1005C;When flat valve 10C is in the third working position, the 9th channel 109C is connected with channel 1082C
It is logical, to form the 6th communicating passage 1006C;When flat valve 10C is in four working positions, the 11st channel
1011C is connected with channel 1082C and the tenth four-way 1014C respectively, to form the tenth communicating passage 10010C;
When flat valve 10C is in five working positions, the 9th channel 109C of flat valve 10C is connected with channel 1081C
It is logical, to form the 11st communicating passage 10011C;When flat valve 10C is in six working positions, the flat valve 10
11st channel 1011C is connected with channel 1081C and the tenth four-way 1014C respectively, to form the 14th
Communicating passage 10014C.Correspondingly, when flat valve 10C is in the first working position, which is in purification-softening
Working condition, raw water are flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then pass through
The 9th channel 109C of moving valve plate 13C flows into the first passage 101C of fixed valve plate 12C, then passes through valve body 11C
The 5th opening 1105C enter the purification device 20 this first connection opening 201, by the water process of the purification device 20
After material or mechanism processing, from 202 outflow of the second connection opening of the purification device 20, the water purification being then out is divided into two
Road, wherein water purification flows into first lead-through opening 301 of the Softening box 31 all the way, at the softening resin in the Softening box 31
After reason, from second lead-through opening 302 of the Softening box 31 flow out, then flow through valve body 11C the 7th opening 1107C into
The third channel 103C for entering fixed valve plate 12C enters this by the tenth channel 1010C water conservancy diversion of moving valve plate 13C and determines valve
The Five-channel 105C of piece 12C, then by the second opening 1102C of valve body 11C to water after user's supply processing, separately
The 6th opening 1106C that water purification flows through valve body 11C all the way enters the channel 1081C of fixed valve plate 12C, dynamic by this
The tenth triple channel 1013C water conservancy diversion of valve block 13C enters the 12nd channel 1012C of fixed valve plate 12C, most afterwards through the valve body
The 8th opening 1108C of 11C flows out and supplies water purification to user;When flat valve 10C is in the second working position, at the water
Reason machine is in softening filter core (softening plant) the backwash working condition, and raw water is flowed into from first opening 1101C of valve body 11C
To the inner cavity 110C of valve body 11C, then flow into fixed valve plate 12C's by the 9th channel 109C of moving valve plate 13C
Then fourth lane 104C is opened by second conducting that the 7th opening 1107C of valve body 11C enters the Softening box 31
Mouth 302 flows out after the softening resin back flush in the Softening box 31 from first lead-through opening 301 of the Softening box 31,
The 6th opening 1106C for then flowing through valve body 11C, passes through channel 1081C, the moving valve plate of fixed valve plate 12C
The tenth four-way 1014C of the 11st channel 1011C and fixed valve plate 12C of 13C, then from flat valve 10C this
Nine opening 1109C outflows;When flat valve 10C is in third working position, which is in purification device backwash work
State, raw water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then by being somebody's turn to do
The 9th channel 109C of moving valve plate 13C flows into the channel 1082C of fixed valve plate 12C, then by valve body 11C this
Six opening 1106C enter the purification device 20 this second connection opening 202, in the purification device 20 material for water treatment or
After mechanism back flush, from 201 outflow of the first connection opening of the purification device 20, then flow through valve body 11C this
Five opening 1105C pass through the 11st channel of moving valve plate 13C into the first passage 101C of fixed valve plate 12C
Nineth opening 1109C outflow of the tenth four-way 1014C of 1011C and fixed valve plate 12C from flat valve 10C.Into one
Step ground, when flat valve 10C is in four working positions, which is in the softening filter core reproduction operation state, raw water
It is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of the valve body 11, then passes through moving valve plate 13C's
9th channel 109C flows into the 6th channel 106C of fixed valve plate 12C, is then open by the third of valve body 11C
1103C flows into the exit wound of bullet 321 of the ejector 32, by 32 jet stream of ejector, mixes the liquid from the brine tank 33
The 4th opening 1104C that valve body 11C is flowed by the entry portal 322 of the ejector 32, subsequently into fixed valve plate 12C
The 7th channel 107C, using moving valve plate 13C the tenth channel 1010C water conservancy diversion enter fixed valve plate 12C the 4th
Channel 104C, the 7th opening 1107C for then flowing through valve body 11C enter second lead-through opening 302 of the Softening box 31,
In the counter-current regeneration Softening box 31 as softening resin after, from first lead-through opening 301 flow out, then flow through valve body 11C
The 6th opening 1106C enter the channel 1082C of fixed valve plate 12C, then pass through the 11st logical of moving valve plate 13C
The tenth four-way 1014C of road 1011C and fixed valve plate 12C, from the 9th opening 1109C outflow of flat valve 10C;When
When flat valve 10C is in five working positions, which is in the softening filter core (softening plant) and just washes working condition,
Raw water is flowed into the inner cavity 110C of valve body 11C from first opening 1101C of valve body 11C, then passes through the moving valve plate
The 9th channel 109C of 13C flows into the channel 1081C of fixed valve plate 12C, then passes through the 6th opening of valve body 11C
1106C enters first lead-through opening 301 of the Softening box 31, after being rinsed to the softening resin forward direction in the Softening box 31, from
Second lead-through opening 302 of the Softening box 31 flows out, and then flows through the 7th opening 1107C of valve body 11C, passes through this
The 11st channel 1011C and fixed valve plate 12C of the third channel 103C and moving valve plate 13C of fixed valve plate 12C this
Ten four-way 1014C, then the 9th opening 1109C outflow from flat valve 10C;Further, as flat valve 10C
When in six working positions, which is in the purification device and just washes working condition, raw water from valve body 11C this first
Opening 1101C is flowed into the inner cavity 110C of valve body 11C, is then flowed by the 9th channel 109C of moving valve plate 13C
Then the second channel 102C of fixed valve plate 12C enters the purification device by the 5th opening 1105C of valve body 11C
20 this first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification fill
202 outflow of the second connection opening for setting 20, then flows through the 6th opening 1106C of valve body 11C, into the fixed valve plate
The channel 1081C of 12C passes through the 14th of the 11st channel 1011C and fixed valve plate 12C of moving valve plate 13C
Nineth opening 1109C outflow of the channel 1014C from flat valve 10C;It, should when flat valve 10C is in seven working positions
Water treatment machine is in the brine tank moisturizing working condition, and raw water is flowed into the valve body from first opening 1101C of valve body 11C
The inner cavity 110C of 11C, then flow into fixed valve plate 12C by the 9th channel 109C of moving valve plate 13C the 7th are led to
Road 107C, the 4th opening 1104C for then flowing through valve body 11C flows into the entry portal 322 of the ejector 32, to saline solution
33 moisturizing of case.
With reference to shown in Figure 117 A to Figure 120 G of attached drawing, according to the water treatment system of the utility model the 4th preferred embodiment
The optional implementation of one kind of flat valve 10C is elucidated with, and wherein flat valve 10S has a first passage 101C, and one second
Channel 102C, third channel a 103C, a fourth lane 104C, a Five-channel 105S, a 6th channel 106C,
One the 7th channel 107C, a 8th channel 108C, a 9th channel 109C, a tenth channel 1010C, one the tenth
One channel 1011C, a 12nd channel 1012S, a tenth triple channel 1013C and a tenth four-way 1014C, wherein
First passage 101C, it second channel 102C, third channel 103C, fourth lane 104C, the Five-channel 105S, is somebody's turn to do
6th channel 106C, the 7th channel 107C, the 8th channel 108C, the 12nd channel 1012S and the tenth four-way
1014C is respectively arranged on fixed valve plate 12C and extends respectively from the first fluid control plane 120C of fixed valve plate 12C;9th
Channel 109C, the tenth channel 1010C, the 11st channel 1011C and the tenth triple channel 1013C are respectively arranged on the dynamic valve
Piece 13C simultaneously extends from the second fluid control plane 130C of moving valve plate 13C, first passage 101C and the second channel respectively
102C is connected with the 5th opening 1105C respectively, and third channel 103C and fourth lane 104C are opened with the 7th respectively
Mouth 1107C is connected, which is connected with second opening 1102C, and the 6th channel 106C is opened with the third
Mouth 1103C is connected, and the 7th channel 107C is connected with the 4th opening 1104C, and the 8th channel 108C is opened with the 6th
Mouth 1106C is connected, and the 12nd channel 1012S is connected with the 8th opening 1108C, the 9th channel 109C and the valve body
The inner cavity 110C of 11C is connected, and the 11st channel 1011C is connected with the tenth four-way 1014C, the tenth four-way
1014C is connected with the 9th opening 1109C.
As shown in Figure 117 A to Figure 120 G of attached drawing, when flat valve 10S is in the second working position, flat valve 10S
The Five-channel 105S and the 12nd channel 1012S respectively by moving valve plate 13C close;When flat valve 10S is in the
When three working positions, the Five-channel 105S of flat valve 10S is closed by moving valve plate 13C;When flat valve 10S is in the 4th
When working position, Five-channel 105S and the 12nd channel 1012S of flat valve 10S is closed by moving valve plate 13C respectively;
When flat valve 10S is in five working positions, the Five-channel 105S and the 12nd channel 1012S points of flat valve 10S
It is not closed by moving valve plate 13C;When flat valve 10S is in six working positions, the Five-channel 105S of flat valve 10S
It is closed respectively by moving valve plate 13C with the 12nd channel 1012S;When flat valve 10S is in seven working positions, the plane
Five-channel 105S and the 12nd channel 1012S of valve 10S is closed by moving valve plate 13C respectively.In other words, the plane
Valve 10S and flat valve 10C the difference is that, when this of the water treatment system according to the 4th preferred embodiment of the utility model is flat
Face valve 10S be in second working position, the third working position, the 4th working position, the 5th working position, the 6th working position and
When seven working positions, flat valve 10S does not re-form (or can not be formed) the 16th communicating passage 10016C;When this is flat
Face valve 10S is in second working position, the 4th working position, the 5th working position, the 6th working position and the 7th working position
When, flat valve 10S does not re-form (or can not be formed) the 17th communicating passage 10017C.In other words, when the flat valve
It, should when 10S is in second working position, the third working position, the 4th working position, the 6th working position and seven working positions
Flat valve 10S does not pass through the second opening 1102C and the 8th opening 1108C provides pending water (or raw water);When the plane
When valve 10S is in the third working position, flat valve 10S does not pass through second opening 1102C, and to provide pending water (or former
Water).
With reference to Figure 121 to Figure 146 G of the utility model attached drawing, according to the water process of the 5th preferred embodiment of the utility model
System is illustrated, and it is suitable for carrying out purifying-sofening treatment to pending water (or raw water), wherein the water treatment system includes
One fluid valve 10D, a purification device 20 and a softening plant 30, wherein fluid valve 10D include valve body 11D and
One spool 1D, wherein fluid valve 10D has an inner cavity 110D, a first opening 1101D, second opening
1102D, a third opening 1103D, a 4th opening 1104D, a 5th opening 1105D, the 6th opening
1106D, the 7th 1107D and one a 8th opening 1108D of opening, wherein spool 1D is arranged on inner cavity 110D.It is excellent
Selection of land, fluid valve 10D are further formed one the 9th opening 1109D.It is appreciated that first opening 1101D, this second opens
Mouthful 1102D, third opening 1103D, the 4th opening 1104D, the 5th opening 1105D, the 6th opening 1106D, this
Seven opening 1107D and the 8th opening 1108D are preferably spaced apart valve body 11D in fluid valve 10D.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
The water treatment system have first working condition, second working condition and a third working condition, wherein when
When the water treatment system is in first working condition, fluid valve 10D forms one and first opens with this of valve body 11D respectively
Mouthful 1101D and the 5th be open the first communicating passage 1001D that 1105D is connected, one respectively with valve body 11D this
Two opening 1102D and the 7th are open the second communicating passage 1002D for being connected of 1107D and one respectively with valve body 11D's
The third connecting channel 1003D that 6th opening 1106D is connected with the 8th opening 1108D, when the water treatment system is in
When second working condition, fluid valve 10D formed one respectively with valve body 11D this first opening 1101D and the 7th
The 4th communicating passage 1004D and the 1106D and one that is open respectively with the 6th of valve body 11D that opening 1107D is connected
The 5th communicating passage 1005D that a 9th opening 1109D is connected, when the water treatment system is in the third working condition,
Fluid valve 10D forms one and is open what 1106D was connected with the first opening 1101D and the 6th of valve body 11D respectively
6th communicating passage 1006D and the opening of 1105D and the 9th 1109D that is open respectively with the 5th of valve body 11D the are connected
The 7th logical communicating passage 1007D.Preferably, further have according to the water treatment system of the 5th preferred embodiment of the utility model
One the 4th working condition and the 5th working condition, when the water treatment system is in four working conditions, the fluid
Valve 10D forms the 8th company being connected respectively with the first opening 1101D of valve body 11D and third opening 1103D
Circulation passage 1008D, the opening of 1106D and the 4th 1104D that is open respectively with the 6th of valve body 11D be connected the
Nine communicating passage 1009D and the opening of 1107D and the 9th 1109D that is open respectively with the 7th of valve body 11D the are connected
The tenth communicating passage 10010D, when the water treatment system is in five working conditions, fluid valve 10D formed one
The 11st communicating passage 10011D being connected respectively with the first opening 1101D of valve body 11D and the 6th opening 1106D
The 12nd communicating passage being connected with the opening of 1107D and the 9th 1109D that is open respectively with the 7th of valve body 11D the
10012D.It is highly preferred that further there is one the 6th work according to the water treatment system of the 5th preferred embodiment of the utility model
State and the 7th working condition, when the water treatment system is in six working conditions, fluid valve 10D forms one
The tenth tee joint channel being connected respectively with the first opening 1101D of valve body 11D and the 5th opening 1105D
10013D and 1109D that is open respectively with the 6th of valve body 11D opening 1106D and the 9th be connected the 14th
Communicating passage 10014D, when the water treatment system is in seven working conditions, fluid valve 10D formed one respectively with this
The 15th communicating passage 10015D that the first opening 1101D of valve body 11D is connected with the 4th opening 1104D.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, further, when according to the utility model the 5th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13D and the fixed valve plate of flat valve 10D
12D forms the 16th company being connected respectively with the first opening 1101D of valve body 11D and second opening 1102D
Circulation passage 10016D;In second working condition, the 4th working condition, the 6th working condition and the 7th working condition
When, the moving valve plate 13D and fixed valve plate 12D of flat valve 10D formed one respectively with first opening of valve body 11D
The 17th communicating passage 10017D that 1101D is connected with the 8th opening 1108D;With in the third working condition and the 5th
When working condition, the moving valve plate 13D and fixed valve plate 12D of flat valve 10D formed one respectively with valve body 11D this
The tenth eight connectivity channel 10018D that one opening 1101D is connected with the 8th opening 1108D.
As shown in Figure 121 to Figure 146 G of attached drawing, according to the stream of the water treatment system of the 5th preferred embodiment of the utility model
Body valve 10D is a flat valve, and wherein flat valve 10D further comprises a moving valve plate 13D and a fixed valve plate 12D,
In fixed valve plate 12D there is a first fluid control plane 120D, moving valve plate 13D to have a second fluid control plane
130D, wherein moving valve plate 13D and fixed valve plate 12D are arranged on inner cavity 110D, wherein moving valve plate 13D this second
Fluid control plane 130D is arranged on the first fluid control plane 120D of fixed valve plate 12D, and moving valve plate 13D is set
It can be rotated relative to fixed valve plate 12D, wherein there is the purification device 20 one first connection opening 201 to be connected to one second
Opening 202, wherein the softening plant 30 includes a Softening box 31, and wherein the Softening box 31 has first lead-through opening
301 and second lead-through opening 302, wherein the inner cavity 110D of valve body 11D is connected with first opening 1101D, should
The first connection opening 201 of purification device 20 is connected with the 5th opening 1105D of valve body 11D, the purification device 20
The second connection opening 202 and first lead-through opening 301 of the Softening box 31 be open with the 6th of valve body 11D
1106D is connected, and second lead-through opening 302 of the Softening box 31 is connected with the 7th opening 1107D of valve body 11D.
Therefore, when fluid valve 10D is a flat valve, the spool 1D of fluid valve 10D includes moving valve plate 13D and this determines valve
Piece 12D.Furthermore, it is to be understood that due to the inner cavity 110D and the first opening 1101D phase of the valve body 11D of flat valve 10D
Connection, therefore, pending water are provided by the first opening 1101D and inner cavity 110D.
As shown in Figure 121 to Figure 122 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
The softening plant 30 of water treatment system further comprises an ejector 32 and a brine tank 33, and wherein the ejector 32 has
There is one to be suitable for being suitable for and valve body 11D with the third of valve body 11D opening 1103D exit wound of bullet 321 being connected and one
The 4th entry portal 322 that is connected of opening 1104D, wherein the brine tank 33 is suitable for being connected with the ejector 32, thus
The saline solution from the brine tank 33 is set to flow to by the ejector 32 and the 4th opening 1104D, and through flat valve 10D
Softening box 31 of the softening plant 30, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when this is practical
When Novel water treatment system is in a softening filter core suction salt reproduction operation state, raw water or pending water are from valve body 11D's
First opening 1101D is flowed into the inner cavity 110D of valve body 11D, is then flowed by an eight connectivity channel 1008D
Third opening 1103D, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from the salt
The entry portal 322 after the liquid of liquid case 33 through the ejector 32 flows into the 4th opening 1104D of valve body 11D, then leads to
It crosses a 9th communicating passage 1009D and flows into the 6th opening 1106D, into first lead-through opening 301 of the Softening box 31,
Material for water treatment or mechanism in the co-current regeneration Softening box 31 flow out after softening resin from second lead-through opening 302,
A the tenth communicating passage 10010D is flowed into after then flowing through the 7th opening 1107D of valve body 11D, then from the flat valve
One the 9th opening 1109D of 10D flows out.Although being appreciated that the utility model is exemplarily only described through ejector 32
There is provided saline solution mode to Softening box 31, however, saline solution can also otherwise or mechanism by flat valve 10D this
Four opening 1104D are provided to the Softening box 31.Therefore, in such a way that ejector 32 provides saline solution to Softening box 31 not
The limitation of the utility model should be become.
It will be appreciated by those skilled in the art that the flat valve 10D of the utility model water treatment system can further have
One is arranged on the bindiny mechanism of valve body 11D, such as connection screw thread, snap fit connector, in order to flat valve 10D and the water
The other structures component of processing system, such as purification device, softening plant are connected, to guide water flow to flow to purification dress respectively
It sets, each communicating passage that the Softening box of softening plant and flat valve 10D are formed.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
The water treatment system have first working condition, second working condition and a third working condition, wherein when
When the water treatment system is in first working condition, the moving valve plate 13D and fixed valve plate 12D of flat valve 10D forms one
A the first communicating passage 1001D being connected respectively with the first opening 1101D of valve body 11D and the 5th opening 1105D,
One the second communicating passage being connected respectively with the second opening 1102D of valve body 11D and the 7th opening 1107D
The third connecting that the 1002D and opening of 1106D and the 8th 1108D that is open respectively with the 6th of valve body 11D the is connected
Channel 1003D, when the water treatment system is in second working condition, the moving valve plate 13D of flat valve 10D determines valve with this
Piece 12D forms the 4th company being connected respectively with the first opening 1101D of valve body 11D and the 7th opening 1107D
The 9th opening of circulation passage 1004D and the 1106D and flat valve 10D that is open respectively with the 6th of valve body 11D the
The 5th communicating passage 1005D that 1109D is connected, when the water treatment system is in the third working condition, flat valve 10D
Moving valve plate 13D and fixed valve plate 12D formed one respectively with valve body 11D this first opening 1101D and the 6th open
The 6th communicating passage 1006D that mouthful 1106D is connected and one respectively with the 5th opening 1105D of valve body 11D and this put down
The 7th communicating passage 1007D that the 9th opening 1109D of face valve 10D is connected.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
The water treatment system of example is when being in first working condition, first communicating passage 1001D that flat valve 10D is formed respectively with
Valve body 11D this first opening 1101D and the 5th be open 1105D be connected, second communicating passage 1002D respectively with this
Valve body 11D this second opening 1102D and the 7th be open 1107D be connected, third connecting channel 1003D respectively with this
The 1108D that is open of the 6th opening 1106D of valve body 11D and the 8th is connected, thus allow raw water from valve body 11D this
One opening 1101D is flowed into the inner cavity 110D of valve body 11D, and first connection then formed by flat valve 10D is logical
Road 1001D, valve body 11D the 5th opening 1105D, the purification device 20 this first connection opening 201 flow into the purification
Device 20, the second connection opening of the water purification that raw water obtains after 20 purified treatment of purification device from the purification device 20
202 outflows, then water purification is divided into two-way, wherein first lead-through opening 301 that water purification flows through the Softening box 31 all the way is flowed into and is somebody's turn to do
Softening box 31, and softened water is obtained after softened processing, softened water is flowed out from second lead-through opening 302 of the Softening box 31,
Then second communicating passage 1002D of the 7th opening 1107D through valve body 11D, flat valve 10D, most afterwards through the valve
Second opening 1102D of body 11D flows out and supplies softened water to user, and another way water purification flows through the 6th of valve body 11D
The third connecting channel 1003D of opening 1106D, flat valve 10D, most the 8th opening 1108D through valve body 11D flows afterwards
Supply water purification out and to user.Therefore, when the water treatment system is in first working condition, the utility model water process system
System can provide water purification and softened water to user simultaneously.Correspondingly, first working condition of the water treatment system, which corresponds to, is somebody's turn to do
The purification of water treatment system-softening working condition.Therefore, when the water treatment system is in first working condition, the valve body
11D this first opening 1101D (or the inner cavity 110D of valve body 11D), valve body 11D the 5th opening 1105D, should
The first connection opening 201, the second connection opening 202, the softening plant 30 of the purification device 20 of purification device 20
First lead-through opening 301 of the Softening box 31, the Softening box 31 of the softening plant 30 second lead-through opening 302, should
Second opening 1102D of the 7th opening 1107D and valve body 11D of valve body 11D is sequentially communicated, so that forming one will
The water-flowing path that the purification device 20 and the softening plant 30 are cascaded, so that raw water can be flowed to from the purification device 20
The softening plant 30 and it is cleaned raw water successively and sofening treatment.Meanwhile the 6th opening 1106D of valve body 11D, this is flat
The 8th opening 1108D of the third connecting channel 1003D and valve body 11D of face valve 10D form a water purification and supply branch
(water route), to provide water purification to user.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
The water treatment system of example is when being in second working condition, the 4th communicating passage 1004D that flat valve 10D is formed respectively with
Valve body 11D this first opening 1101D and the 7th be open 1107D be connected, the 5th communicating passage 1005D respectively with this
The 9th opening 1109D of the 6th opening 1106D and flat valve 10D of valve body 11D is connected, to allow raw water certainly
First opening 1101D of valve body 11D is flowed into the inner cavity 110D of valve body 11D, then passes through flat valve 10D shape
At the 4th communicating passage 1004D flow into the 7th opening 1107D, then second lead-through opening 302 through the Softening box 31
The Softening box 31 is flowed into, and to the softener material (or material for water treatment) in the Softening box 31, such as softening resin, back flush
Afterwards, the sewage or waste water obtained is flowed out from first lead-through opening 301 of the Softening box 31, then flows through being somebody's turn to do for valve body 11D
6th opening 1106D flows into the 5th communicating passage 1005D of flat valve 10D, and then the 9th from flat valve 10D opens
Mouth 1109D outflow.In other words, when the water treatment system is in second working condition, the utility model water treatment system
It is controllable that back flush is carried out to softening filter core, such as Softening box 31.Correspondingly, second working condition pair of the water treatment system
It should be in softening filter core (softening plant) backwash working condition of the water treatment system.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
The water treatment system of example is when being in the third working condition, the 6th communicating passage 1006D that flat valve 10D is formed respectively with
Valve body 11D this first opening 1101D and the 6th be open 1106D be connected, the 7th communicating passage 1007D respectively with this
The 9th opening 1109D of the 5th opening 1105D and flat valve 10D of valve body 11D is connected, to allow raw water certainly
First opening 1101D of valve body 11D is flowed into the inner cavity 110D of valve body 11D, then passes through the 6th communicating passage
1006D flows into the 6th opening 1106D, the second connection opening 202 of the purification device 20 is entered back into, to the purification device 20
In material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening 201 outflow, then flow through
The 5th opening 1105D of valve body 11D flows into the 7th communicating passage 1007D, then from the 9th of flat valve 10D the
Be open 1109D outflow;Correspondingly, the third working condition of the water treatment system corresponds to the purification device of the water treatment system
Backwash working condition.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
Water treatment system further there is the 4th working condition and the 5th working condition, when the water treatment system is in this
When four working conditions, the moving valve plate 13D and fixed valve plate 12D of flat valve 10D forms one respectively with valve body 11D's
This first opening 1101D and the third be open 1103D be connected eight connectivity channel 1008D, one respectively with valve body 11D
The 6th opening 1106D and the 4th be open the 9th communicating passage 1009D that is connected of 1104D and one respectively with the valve body
The tenth communicating passage that the 9th opening 1109D of the 7th opening 1107D and flat valve 10D of 11D are connected
10010D;When the water treatment system is in five working conditions, the moving valve plate 13D and the fixed valve plate of flat valve 10D
12D forms the 11st company being connected respectively with the first opening 1101D of valve body 11D and the 6th opening 1106D
The 9th opening of circulation passage 10011D and the 1107D and flat valve 10D that is open respectively with the 7th of valve body 11D the
The 12nd communicating passage 10012D that 1109D is connected.
When the water treatment system according to the 5th preferred embodiment of the utility model is in four working conditions, the flat valve
10D formed eight connectivity channel 1008D respectively with valve body 11D this first opening 1101D and the third opening 1103D
It is connected, the 9th communicating passage 1009D is open with the 6th of valve body 11D opening 1106D and the 4th 1104D phase respectively
Connection, the tenth communicating passage 10010D respectively with the 7th of valve body 11D opening 1107D and flat valve 10D this
Nine opening 1109D are connected, so that raw water be allowed to be flowed into being somebody's turn to do for valve body 11D from first opening 1101D of valve body 11D
Then inner cavity 110D flows into third opening 1103D by eight connectivity channel 1008D, then flows into being somebody's turn to do for the ejector 32
Exit wound of bullet 321 mixes entry portal through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
322 flow into the 4th opening 1104D of valve body 11D, then flow into the 6th opening by the 9th communicating passage 1009D
1106D, into first lead-through opening 301 of the Softening box 31, after the softening resin in the co-current regeneration Softening box 31, from this
The outflow of second lead-through opening 302, the 7th opening 1107D for then flowing through valve body 11D flow into the tenth communicating passage
10010D, then from the 9th opening 1109D outflow of flat valve 10D.Correspondingly, the 4th work of the water treatment system
State corresponds to softening filter core (softening plant) reproduction operation state of the water treatment system.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
When the water treatment system of example is in five working conditions, the 11st communicating passage 10011D that flat valve 10D is formed divides
It is not connected with the first opening 1101D of valve body 11D and the 6th opening 1106D, the 12nd communicating passage 10012D
It is connected respectively with the 9th opening 1109D of the 7th opening 1107D and flat valve 10D of valve body 11D, to allow
Raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the 11st
Communicating passage 10011D flows into the 6th opening 1106D, enters back into first lead-through opening 301 of the Softening box 31, soft to this
After changing material for water treatment or the flushing of mechanism forward direction in case 31, flowed out from second lead-through opening 302 of the Softening box 31, then
The 7th opening 1107D for flowing through valve body 11D flows into the 12nd communicating passage 10012D, then from flat valve 10D's
9th opening 1109D outflow.In other words, when the water treatment system is in five working conditions, the utility model water
Processing system is controllable to softening filter core, as Softening box 31 carries out positive flushing.Correspondingly, the 5th work of the water treatment system
The softening filter core (softening plant) for making state corresponding to the water treatment system just washes working condition.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
Water treatment system further there is the 6th working condition and the 7th working condition, when the water treatment system is in this
When six working conditions, the moving valve plate 13D and fixed valve plate 12D of flat valve 10D forms one respectively with valve body 11D's
The first opening 1101D and the 5th be open the tenth tee joint channel 10013D that is connected of 1105D and one respectively with the valve
The 14th communicating passage that the 9th opening 1109D of the 6th opening 1106D and flat valve 10D of body 11D are connected
10014D;When the water treatment system is in seven working conditions, the moving valve plate 13D and the fixed valve plate of flat valve 10D
12D forms the 15th company being connected respectively with the first opening 1101D of valve body 11D and the 4th opening 1104D
Circulation passage 10015D.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
When the water treatment system of example is in six working conditions, the tenth tee joint channel 10013D that flat valve 10D is formed divides
It is not connected with the first opening 1101D of valve body 11D and the 5th opening 1105D, the 14th communicating passage 10014D
It is connected respectively with the 9th opening 1109D of the 6th opening 1106D and flat valve 10D of valve body 11D, to allow
Raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the 13rd
Communicating passage 10013D flows into the 5th opening 1105D, the first connection opening 201 of the purification device 20 is entered back into, to this
After material for water treatment or mechanism forward direction in purification device 20 rinse, from 202 stream of the second connection opening of the purification device 20
Out, the 6th opening 1106D for then flowing through valve body 11D flows into the 14th communicating passage 10014D, then from the plane
The 9th opening 1109D outflow of valve 10D.In other words, when the water treatment system is in six working conditions, this is practical
Novel water treatment system is controllable to carry out positive flushing to purification device 20.Correspondingly, the 6th work of the water treatment system
The purification device that state corresponds to the water treatment system just washes working condition.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, when according to the preferably implementation of the utility model the 5th
When the water treatment system of example is in seven working conditions, the 15th communicating passage 10015D that flat valve 10D is formed divides
It is not connected with the first opening 1101D of valve body 11D and the 4th opening 1104D, to allow raw water from valve body 11D
First opening 1101D be flowed into the inner cavity 110D of valve body 11D, then flowed by the 15th communicating passage 10015D
Enter the 4th opening 1104D, then flow into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.In other words, when this
When water treatment system is in seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Accordingly
Ground, the 7th working condition of the water treatment system correspond to the brine tank moisturizing working condition of the water treatment system.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, further, when according to the utility model the 5th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13D and the fixed valve plate of flat valve 10D
The 16th communicating passage 10016D that 12D is formed allows raw water to be flowed into the valve from first opening 1101D of valve body 11D
Then the inner cavity 110D of body 11D flows into second opening of valve body 11D by the 16th communicating passage 10016D
1102D, thus second working condition, the third working condition, the 4th working condition, the 5th working condition, this
Six working conditions and the 7th working condition provide raw water to user.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, further, when according to the utility model the 5th
The water treatment system of preferred embodiment be in second working condition, the 4th working condition, the 6th working condition and this
When seven working conditions, the 17th communicating passage of moving valve plate 13D and the fixed valve plate 12D formation of flat valve 10D
10017D allows raw water to be flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then leads to
Cross the 17th communicating passage 10017D flow into valve body 11D the 8th opening 1108D, thus second working condition,
4th working condition, the 6th working condition and the 7th working condition provide raw water to user.Further, when according to
When the water treatment system of the 5th preferred embodiment of the utility model is in the third working condition and five working conditions, this is flat
The tenth eight connectivity channel 10018D that the moving valve plate 13D and fixed valve plate 12D of face valve 10D is formed allows raw water from the valve body
First opening 1101D of 11D is flowed into the inner cavity 110D of valve body 11D, then passes through the tenth eight connectivity channel
10018D flows into the 8th opening 1108D of valve body 11D, thus in the third working condition and the 5th working condition to making
User provides raw water.
Correspondingly, preferable according to the utility model the 5th as shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing
The fluid valve (or flat valve) 10D of the water treatment system of embodiment has first working position, second working position, one
A third working position, the 4th working position, the 5th working position, the 6th working position and the 7th working position,
In when fluid valve (or the flat valve) 10D is in first working position, the spool 1D (moving valve plate 13D of fluid valve 10D
First communicating passage 1001D, the second communicating passage 1002D and the third connecting channel are formed with the fixed valve plate 12D)
1003D, when fluid valve (or the flat valve) 10D is in second working position, the spool 1D of fluid valve 10D is formed should
4th communicating passage 1004D and the 5th communicating passage 1005D, when fluid valve (or the flat valve) 10D is in third work
When position, the spool 1D of fluid valve 10D forms the 6th communicating passage 1006D and the 7th communicating passage 1007D;It is preferred that
Ground, when fluid valve (or the flat valve) 10D is in four working positions, the spool 1D of fluid valve 10D forms the 8th
Communicating passage 1008D, the 9th communicating passage 1009D and the tenth communicating passage 10010D;When the fluid valve (or flat valve)
When 10D is in five working positions, the spool 1D of fluid valve 10D forms the 11st communicating passage 10011D and the tenth
Two communicating passage 10012D;It is highly preferred that when fluid valve (or the flat valve) 10D is in six working positions, the fluid valve
The spool 1D of 10D forms the tenth tee joint channel 10013D and the 14th communicating passage 10014D;When the fluid valve (or
Flat valve) for 10D when being in seven working positions, the spool 1D of fluid valve 10D forms the 15th communicating passage 10015D.
Further, when fluid valve (or the flat valve) 10D of the water treatment system according to the 5th preferred embodiment of the utility model is in
Second working position, the third working position, the 4th working position, the 5th working position, the 6th working position and the 7th work
When position, the spool 1D of fluid valve 10D forms the 16th communicating passage 10016D.Further, when practical new according to this
Fluid valve (or the flat valve) 10D of the water treatment system of the 5th preferred embodiment of type is in second working position, the 4th work
When making position, the 6th working position and seven working positions, the spool 1D of fluid valve 10D forms the 17th communicating passage
10017D, when fluid valve (or the flat valve) 10D of the water treatment system according to the 5th preferred embodiment of the utility model is in this
When third working position and five working positions, the spool 1D of fluid valve 10D forms the tenth eight connectivity channel 10018D.
As shown in Figure 135 A to Figure 135 F and Figure 137 A to Figure 137 D of attached drawing, according to the 5th preferred embodiment of the utility model
The flat valve 10D of water treatment system there is a first passage 101D, a second channel 102D, a third channel
103D, a fourth lane 104D, a Five-channel 105D, a 6th channel 106D, a 7th channel 107D, one
8th channel 108D, a 9th channel 109D, a tenth channel 1010D, a 11st channel 1011D, one the tenth
Two channel 1012D, a tenth triple channel 1013D and a tenth four-way 1014D, wherein first passage 101D, this
Two channel 102D, third channel 103D, fourth lane 104D, the Five-channel 105D, the 6th channel 106D, this
Seven channel 107D, the 8th channel 108D, the 12nd channel 1012D and the tenth four-way 1014D are respectively arranged on this and determine valve
Piece 12D simultaneously extends from the first fluid control plane 120D of fixed valve plate 12D respectively;9th channel 109D, the tenth channel
1010D, the 11st channel 1011D and the tenth triple channel 1013D are respectively arranged on moving valve plate 13D and move valve from this respectively
The second fluid control plane 130D of piece 13D extends, wherein first passage 101D and second channel 102D respectively with this
Five opening 1105D are connected, and third channel 103D and fourth lane 104D are connected with the 7th opening 1107D respectively,
The Five-channel 105D is connected with second opening 1102D, and the 6th channel 106D is connected with third opening 1103D,
7th channel 107D is connected with the 4th opening 1104D, the 8th channel 108D and the tenth four-way 1014D respectively with
6th opening 1106D is connected, and the 12nd channel 1012D is connected with the 8th opening 1108D, the 9th channel 109D
It is connected with first opening 1101D of valve body 11D (by the inner cavity 110D of valve body 11D), the 11st channel
1011D is connected with the 9th opening 1109D.Preferably, the 9th opening 1109D is arranged on the valve of flat valve 10D
Body 11D, and the 9th opening 1109D is connected by a drain outlet 150D with the 11st channel 1011D.Therefore, may be used
Selection of land, the 9th opening 1109D of flat valve 10D are formed in moving valve plate 13D, and the 9th opening of flat valve 10D
1109D is connected with the 11st channel 1011D and drain outlet 150D respectively.It is appreciated that the utility model purification
The 6th of the second connection opening 202 of device 20 and first lead-through opening 301 of the Softening box 31 and valve body 11D
The connection of opening 1106D can be accomplished in several ways.As shown in Figure 126 A of attached drawing, the 6th opening of valve body 11D
1106D can by one respectively with the purification device 20 this second be connected to opening 202 and the Softening box 31 this first be connected
301 connecting pipeline (or triplate line) that is connected of opening realizes that the second connection opening 202 of the purification device 20, this is soft
Change the connection between first lead-through opening 301 of case 31 and the 6th opening 1106D of valve body 11D.Optionally, the purification
The 6th of the second connection opening 202 of device 20 and first lead-through opening 301 of the Softening box 31 and valve body 11D
The connection of opening 1106D can also realize that wherein the communication paths can be set by being arranged on the communication paths of valve body 11D
It is connected respectively with the 6th opening 1106D of the 202 and valve body 11D of the second connection opening of the purification device 20, and point
It is not connected with the 6th opening 1106D of first lead-through opening 301 of the Softening box 31 and valve body 11D.Therefore, the valve
202 and of the second connection opening of the 8th channel 108D (or the tenth four-way 1014D) of body 11D, the purification device 20
First lead-through opening 301 of the Softening box 31 forms a three-port structure by the 6th opening 1106D of valve body 11D.
In addition, in order to ensure the water in the inner cavity 110D of valve body 11D enters the 9th channel 109D, the 9th channel 109D quilt
Inner cavity with valve body 11D always can be kept by a water inlet 1091D being connected always with exterior space by being arranged
110D is connected.
It is worth noting that, the first passage 101D and second channel 102D of flat valve 10D are respectively with the 5th
The connection of opening 1105D can be and respectively and by oneself be connected with the 5th opening 1105D, can also pass through one and flow
Body channel is connected;The third channel 103D and fourth lane 104D of flat valve 10D respectively with the 7th opening 1107D
Connection, can be and be connected respectively and by oneself with the 7th opening 1107D, can also be connected by a fluid channel
It is logical.For example, as shown in Figure 121 to Figure 138 G of attached drawing, the first passage 101D and the second channel of flat valve 10D
102D is connected by a first fluid channel 1211D, and the 1105D that is directly open with the 5th is set in second channel 102D
It is connected, to make first passage 101D by the first fluid channel 1211D and second channel 102D, also with the 5th
Opening 1105D is connected;The third channel 103D and fourth lane 104D of flat valve 10D is separately with the 7th
Opening 1107D is connected.Optionally, as shown in Figure 139 of attached drawing and Figure 140, first passage 101D be set directly with this
5th opening 1105D is connected, and second channel 102D passes through the first fluid channel 1211D and first passage 101D,
It is connected with the 5th opening 1105D.Or optionally, the first passage 101D of flat valve 10D and the second channel
102D discriminably and is by oneself connected with the 5th opening 1105D;Or optionally, as shown in Figure 142 of attached drawing, this is flat
The third channel 103D and fourth lane 104D of face valve 10D is connected by a second fluid channel 1212D, the third
Channel 103D, which is set, to be directly connected with the 7th opening 1107D, so that fourth lane 104D be made to pass through the second fluid
Channel 1212D and third channel 103D is also connected with the 7th opening 1107D;Or optionally, such as Figure 141 of attached drawing
Shown, the third channel 103D and fourth lane 104D of flat valve 10D passes through a second fluid channel 1212D phase
Connection, fourth lane 104D, which is set, to be directly connected with the 7th opening 1107D, to keep third channel 103D logical
The second fluid channel 1212D and fourth lane 104D are crossed, is also connected with the 7th opening 1107D.It is appreciated that into one
Step ground, the first fluid channel 1211D and second fluid channel 1212D may be disposed at fixed valve plate 12D this is first-class
Body control plane 120D also may be disposed at the inside of valve body 11D or fixed valve plate 12D.It is appreciated that flat valve 10D
First passage 101D and second channel 102D respectively with the connection of the 5th opening 1105D and flat valve 10D this
The triple channel 103D and fourth lane 104D connection with the 7th opening 1107D respectively, is also possible to otherwise
Connection.
As shown in Figure 138 A to Figure 138 G of attached drawing, according to this of the water treatment system of the 5th preferred embodiment of the utility model
The moving valve plate 13D of flat valve 10D can be rotated relative to fixed valve plate 12D so that flat valve 10D has first work
Make position, second working position and a third working position, wherein when flat valve 10D is in first working position, the plane
The 9th channel 109D of valve 10D is connected with first passage 101D, the tenth channel 1010D respectively with the third channel
103D is connected with the Five-channel 105D, the tenth triple channel 1013D respectively with the 8th channel 108D and the tenth two-way
Road 1012D is connected;When flat valve 10D is in second working position, the 9th channel 109D of flat valve 10D with should
Fourth lane 104D is connected, and the 11st channel 1011D is connected with the 8th channel 108D;When flat valve 10D is in
When the third working position, the 8th channel 108D of flat valve 10D is connected with the 9th channel 109D, flat valve 10D
The 11st channel 1011D be connected with first passage 101D, the tenth channel 1010D of flat valve 10D respectively with
8th channel 108D is connected with the 12nd channel 1012D.
As shown in Figure 138 A to Figure 138 G of attached drawing, according to this of the water treatment system of the 5th preferred embodiment of the utility model
Flat valve 10D further has the 4th working position and the 5th working position, when flat valve 10D is in the 4th work
Position when, the 9th channel 109D of flat valve 10D is connected with the 6th channel 106D, the tenth channel 1010D respectively with
7th channel 107D is connected with the tenth four-way 1014D, and the 11st channel 1011D is connected with fourth lane 104D
It is logical;When flat valve 10D is in five working positions, the 9th channel 109D of flat valve 10D and the 8th channel
108D is connected, and the 11st channel 1011D of flat valve 10D is connected with third channel 103D, flat valve 10D's
Tenth channel 1010D is connected with the 8th channel 108D and the 12nd channel 1012D respectively.
As shown in Figure 138 A to Figure 138 G of attached drawing, according to this of the water treatment system of the 5th preferred embodiment of the utility model
Flat valve 10D further has the 6th working position and the 7th working position, when flat valve 10D is in the 6th
When working position, the 9th channel 109D of flat valve 10D is connected with second channel 102D, flat valve 10D this
11 channel 1011D are connected with the 8th channel 108D;When flat valve 10D is in seven working positions, the flat valve
The 9th channel 109D of 10D is connected with the 7th channel 107D.
It is appreciated that when flat valve 10D is in first working position, according to the 5th preferred embodiment of the utility model
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109D and the first passage of flat valve 10D
101D is connected, thus formed first communicating passage 1001D, the tenth channel 1010D respectively with third channel 103D and
The Five-channel 105D is connected, to form second communicating passage 1002D, the tenth triple channel 1013D respectively with this
Eight channel 108D are connected with the 12nd channel 1012D, to form third connecting channel 1003D;When the flat valve
When 10D is in second working position, is controlled according to the water treatment system of the 5th preferred embodiment of the utility model and be in the softening
Filter core (softening plant) backwash working position, the 9th channel 109D of flat valve 10D are connected with fourth lane 104D,
To form the 4th communicating passage 1004D, the 11st channel 1011D is connected with the 8th channel 108D, to be formed
5th communicating passage 1005D;When flat valve 10D is in the third working position, preferably implement according to the utility model the 5th
The water treatment system of example is controlled and is in the purification device backwash working position, the 8th channel 108D of flat valve 10D with should
9th channel 109D is connected, so that the 6th communicating passage 1006D is formed, the 11st channel 1011D and the first passage
101D is connected, to form the 7th communicating passage 1007D.Further, when flat valve 10D is in the 4th working position
When, it is controlled according to the water treatment system of the 5th preferred embodiment of the utility model and is in the softening filter core reproduction operation position, this is flat
The 9th channel 109D of face valve 10D is connected with the 6th channel 106D, so that eight connectivity channel 1008D is formed, it should
Tenth channel 1010D is connected with the 7th channel 107D and the tenth four-way 1014D respectively, to form the 9th connection
Channel 1009D, the 11st channel 1011D are connected with fourth lane 104D, to form the tenth communicating passage
10010D;When flat valve 10D is in five working positions, according to the water treatment system of the 5th preferred embodiment of the utility model
The softening filter core (softening plant) is in by control and just washes working position, the 9th channel 109D and the 8th of flat valve 10D
Channel 108D is connected, so that the 11st communicating passage 10011D is formed, the 11st channel 1011D of flat valve 10D
It is connected with third channel 103D, to form the 12nd communicating passage 10012D.Further, flat valve 10D
When in six working positions, is controlled according to the water treatment system of the 5th preferred embodiment of the utility model and be in the purification device
When just washing working position, the 9th channel 109D of flat valve 10D is connected with second channel 102D, thus formed this
Ten tee joint channel 10013D, the 11st channel 1011D of flat valve 10D are connected with the 8th channel 108D, thus
Form the 14th communicating passage 10014D;When flat valve 10D is in seven working positions, according to the utility model the 5th compared with
The water treatment system of good embodiment, which is controlled, is in the brine tank moisturizing working position, the 9th channel 109D of flat valve 10D
It is connected with the 7th channel 107D, to form the 15th communicating passage 10015D.It is appreciated that the 11st channel
1011D can be the through-hole for being arranged on moving valve plate 13D, and wherein the 11st channel 1011D is from moving valve plate 13D's
Second fluid control plane 130D extends upwardly to its opposite another side, thus corresponding working position by sewage or waste water to
On be expelled to drain outlet 150D.It is appreciated that when flat valve 10D is in first working position, flat valve 10D's
Tenth channel 1010D is connected with third channel 103D and the Five-channel 105D respectively, and flat valve 10D this is dynamic
The inner cavity 110D of the Five-channel 105D and valve body 11D is spaced by valve block 13D, to prevent the inner cavity of valve body 11D
Raw water in 110D enters the Five-channel 105D, the tenth triple channel 1013D of flat valve 10D respectively with the 8th channel
108D is connected with the 12nd channel 1012D, and the moving valve plate 13D of flat valve 10D is by the 12nd channel 1012D
It is spaced with the inner cavity 110D of valve body 11D, the raw water in the 110D of the inner cavity to prevent valve body 11D enters the 12nd
Channel 1012D.
As shown in Figure 128 A to Figure 138 G of attached drawing, further, when the water according to the 5th preferred embodiment of the utility model
The flat valve 10 of processing system be in second working position, the third working position, the 4th working position, the 5th working position,
When the 6th working position and seven working positions, the inner cavity of the Five-channel 105D and valve body 11D of flat valve 10D
110D is connected, to form the 16th communicating passage 10016D.Correspondingly, when according to the 5th preferred embodiment of the utility model
Water treatment system be in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When making position and seven working positions, raw water is allowed to flow into being somebody's turn to do for valve body 11D from first opening 1101D of valve body 11D
Inner cavity 110D, and further flowed to from the inner cavity 110D of valve body 11D by the Five-channel 105D of fixed valve plate 12D
Second opening 1102D of valve body 11D.
As shown in Figure 128 A to Figure 138 G of attached drawing, further, when the water according to the 5th preferred embodiment of the utility model
The flat valve 10 of processing system is in second working position, the 4th working position, the 6th working position and the 7th working position
When, the inner cavity 110D of the 12nd channel 1012D and valve body 11D of flat valve 10D are connected, to form the tenth
Seven communicating passage 10017D.Correspondingly, when the water treatment system according to the 5th preferred embodiment of the utility model is in second work
When making position, the 4th working position, the 6th working position and seven working positions, raw water be allowed to from valve body 11D this first
Opening 1101D flows into the inner cavity 110D of valve body 11D, and further determines valve by this from the inner cavity 110D of valve body 11D
The 12nd channel 1012D of piece 12D flows to the 8th opening 1108D of valve body 11D.Further, when practical according to this
When the flat valve 10D of the water treatment system of novel 5th preferred embodiment is in the third working position and five working positions,
The 9th channel 109D of flat valve 10D is connected with the 8th channel 108D, and the tenth channel 1010D is respectively with the 8th
Channel 108D is connected with the 12nd channel 1012D, so that the 9th channel 109D is connected with the 12nd channel 1012D
It is logical, to form the tenth eight connectivity channel 10018D.Correspondingly, when the water process according to the 5th preferred embodiment of the utility model
When system is in the third working position and five working positions, raw water is allowed to first opening 1101D from valve body 11D
It is flowed into the inner cavity 110D of valve body 11D, the fixed valve plate is then flowed by the 9th channel 109D of moving valve plate 13D
The 8th channel 108D of 12D, by moving valve plate 13D the tenth channel 1010D water conservancy diversion into fixed valve plate 12D this
Then 12 channel 1012D flow to the 8th opening 1108D of valve body 11D.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, correspondingly, when flat valve 10D is in the
When one working position, which is in purification-softening working condition, the first opening 1101D stream of raw water from valve body 11D
Enter the inner cavity 110D to valve body 11D, fixed valve plate 12D is then flowed by the 9th channel 109D of moving valve plate 13D
First passage 101D, then by valve body 11D the 5th opening 1105D enter the purification device 20 this first connect
Open up mouth 201, after the material for water treatment of the purification device 20 or mechanism processing, water purification from the purification device 20 this
Two connection openings, 202 outflow, then water purification is divided into two-way, wherein water purification flows into first lead-through opening of the Softening box 31 all the way
301, after the softening resin treatment in the Softening box 31, flowed out from second lead-through opening 302 of the Softening box 31, then
The 7th opening 1107D for flowing through valve body 11D enters the third channel 103D of fixed valve plate 12D, by moving valve plate 13D
The tenth channel 1010D water conservancy diversion enter the Five-channel 105D of fixed valve plate 12D, then by valve body 11D this
Two opening 1102D to user supply sofening treatment after water, another way water purification flow through valve body 11D the 6th opening 1106D into
The 8th channel 108D for entering fixed valve plate 12D, it is fixed into this by the tenth triple channel 1013D water conservancy diversion of moving valve plate 13D
The 12nd channel 1012D of valve block 12D, most the 8th opening 1108D through valve body 11D is flowed out and is supplied to user net afterwards
Water;When flat valve 10D is in the second working position, which is in softening filter core (softening plant) backwash work shape
State, raw water are flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then pass through the dynamic valve
The 9th channel 109D of piece 13D flows into the fourth lane 104D of fixed valve plate 12D, then by valve body 11D this
Seven opening 1107D enter second lead-through opening 302 of the Softening box 31, reversely rush to the softening resin in the Softening box 31
It after washing, is flowed out from first lead-through opening 301 of the Softening box 31, then flows through the 6th opening 1106D of valve body 11D,
Pass through the 11st channel 1011D of the 8th channel 108D and moving valve plate 13D of fixed valve plate 12D, then from the plane
The 9th opening 1109D outflow of valve 10D;When flat valve 10D is in third working position, which is in purification dress
Backwash working condition is set, raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D,
Then the 8th channel 108D of fixed valve plate 12D is flowed by the 9th channel 109D of moving valve plate 13D, then by being somebody's turn to do
The 6th opening 1106D of valve body 11D enters the second connection opening 202 of the purification device 20, in the purification device 20
Material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening 201 outflow, then flow through this
The 5th opening 1105D of valve body 11D passes through moving valve plate 13D's into the first passage 101D of fixed valve plate 12D
Nineth opening 1109D outflow of the 11st channel 1011D from flat valve 10D.Further, at flat valve 10D
When four working positions, which is in the softening filter core reproduction operation state, and raw water first is opened from this of valve body 11D
Mouth 1101D is flowed into the inner cavity 110D of valve body 11D, and then being flowed by the 9th channel 109D of moving valve plate 13D should
Then the 6th channel 106D of fixed valve plate 12D flows into the ejector 32 by the third opening 1103D of valve body 11D
The exit wound of bullet 321 mixes injection through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
Mouth 322 flows into the 4th opening 1104D of valve body 11D, subsequently into the 7th channel 107D of fixed valve plate 12D, then passes through
The tenth channel 1010D water conservancy diversion for crossing moving valve plate 13D enters the tenth four-way 1014D of fixed valve plate 12D, then flows through
The 6th opening 1106D of valve body 11D enters first lead-through opening 301 of the Softening box 31, the co-current regeneration Softening box
In 31 as softening resin after, from second lead-through opening 302 flow out, then flow through valve body 11D the 7th opening 1107D
Into the fourth lane 104D of fixed valve plate 12D, then pass through the 11st channel 1011D of moving valve plate 13D, it is flat from this
The 9th opening 1109D outflow of face valve 10D;When flat valve 10D is in five working positions, it is soft which is in this
Change filter core (softening plant) and just wash working condition, raw water is flowed into valve body 11D from first opening 1101D of valve body 11D
Inner cavity 110D, the 8th channel of fixed valve plate 12D is then flowed by the 9th channel 109D of moving valve plate 13D
Then 108D enters first lead-through opening 301 of the Softening box 31, to this by the 6th opening 1106D of valve body 11D
After softening resin forward direction in Softening box 31 is rinsed, is flowed out from second lead-through opening 302 of the Softening box 31, then flow through this
The 7th opening 1107D of valve body 11D, pass through the third channel 103D and moving valve plate 13D of fixed valve plate 12D this
11 channel 1011D, then the 9th opening 1109D outflow from flat valve 10D.Further, at flat valve 10D
When six working positions, which is in the purification device and just washes working condition, and raw water first is opened from this of valve body 11D
Mouth 1101D is flowed into the inner cavity 110D of valve body 11D, and then being flowed by the 9th channel 109D of moving valve plate 13D should
Then the second channel 102D of fixed valve plate 12D enters the purification device 20 by the 5th opening 1105D of valve body 11D
This first connection opening 201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification device
20 202 outflow of the second connection opening, then flows through the 6th opening 1106D of valve body 11D, into fixed valve plate 12D
The 8th channel 108D, the 11st channel 1011D for passing through moving valve plate 13D opens from the 9th of flat valve 10D
Mouth 1109D outflow;When flat valve 10D is in seven working positions, which is in brine tank moisturizing work shape
State, raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then dynamic by this
The 9th channel 109D of valve block 13D flows into the 7th channel 107D of fixed valve plate 12D, then flows through being somebody's turn to do for the valve body 11D
4th opening 1104D flows into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.Therefore, in each working position, according to
The inner cavity 110D of the flat valve 10D of the water treatment system of the 5th preferred embodiment of the utility model first is opened with this respectively
Mouth 1101D is connected with the 9th channel 109D, so that first opening 1101D of flat valve 10D can be by this
Inner cavity 110D is connected with the 9th channel 109D, and realizes pending water in the different traffic organisings of each working position.In addition,
1109D is open as blowdown according to the 9th of the flat valve 10D of the water treatment system of the 5th preferred embodiment of the utility model
Opening, is directly or indirectly connected to the 11st channel 1011D of flat valve 10D, may be formed at the valve body of flat valve 10D
11D also may be formed at a drain outlet.
As shown in Figure 138 A to Figure 138 G of attached drawing, it is preferable that when flat valve 10D is in the first working position, this is flat
Second channel 102D, fourth lane 104D and the tenth four-way 1014D of face valve 10D is sealed by moving valve plate 13D respectively
It closes;When flat valve 10D is in the second working position, the first passage 101D and third channel 103D of flat valve 10D
It is closed respectively by moving valve plate 13D;When flat valve 10D is in third working position, the third channel of flat valve 10D
103D, fourth lane 104D and the tenth four-way 1014D are closed by moving valve plate 13D respectively;When flat valve 10D is in
When four working positions, the first passage 101D of flat valve 10D, second channel 102D, third channel 103D and this
Eight channel 108D are closed by moving valve plate 13D respectively;When flat valve 10D is in five working positions, flat valve 10D this
Two channel 102D, fourth lane 104D and the tenth four-way 1014D are closed by moving valve plate 13D respectively;When the flat valve
When 10D is in six working positions, first passage 101D, third channel 103D and the tenth four-way of flat valve 10D
1014D is closed by moving valve plate 13D respectively.
As shown in Figure 138 A to Figure 138 G of attached drawing, it is highly preferred that when flat valve 10D is in the first working position, it should
The 6th channel 106D and the 7th channel 107D of flat valve 10D is closed by moving valve plate 13D, the 11st channel 1011D
It is closed by fixed valve plate 12D;When flat valve 10D is in the second working position, the 6th channel 106D of flat valve 10D and
7th channel 107D is closed by moving valve plate 13D respectively, and the tenth triple channel 1013D is connected with the tenth four-way 1014D
Logical, the tenth channel 1010D of flat valve 10D is connected with second channel 102D and the 8th channel 108D respectively;When
When flat valve 10D is in third working position, the 6th channel 106D and the 7th channel 107D of flat valve 10D respectively by
Moving valve plate 13D closing, the tenth triple channel 1013D of flat valve 10D are connected with second channel 102D;When the plane
When valve 10D is in four working positions, the tenth triple channel 1013D of flat valve 10D is connected with the Five-channel 105D;When
When flat valve 10D is in five working positions, the 6th channel 106D and the 7th channel 107D of flat valve 10D respectively by
Moving valve plate 13D closing, the tenth triple channel 1013D of flat valve 10D are connected with the 8th channel 108D;When the plane
When valve 10D is in six working positions, the 6th channel 106D and the 7th channel 107D of flat valve 10D moves valve by this respectively
Piece 13D closing, the tenth channel 1010D of flat valve 10D are connected with the 8th channel 108D, and flat valve 10D's should
Tenth triple channel 1013D is connected with fourth lane 104D;When flat valve 10D is in seven working positions, the flat valve
First passage 101D, third channel 103D and the 8th channel 108D of 10D is closed by moving valve plate 13D respectively, this is flat
The tenth channel 1010D of face valve 10D is connected with fourth lane 104D and the tenth four-way 1014D respectively, the plane
The tenth triple channel 1013D of valve 10D is connected with the 6th channel 106D.
It is worth noting that the first passage 101D of flat valve 10D, second channel 102D, the third channel
103D, fourth lane 104D, the Five-channel 105D, the 6th channel 106D, the 7th channel 107D, the 8th channel
108D, the 12nd channel 1012D and the tenth four-way 1014D be spaced respectively set on fixed valve plate 12D this first
Fluid control plane 120D;9th channel 109D, the tenth channel 1010D, the 11st channel 1011D and the tenth triple channel
1013D is set to the second fluid control plane 130D of moving valve plate 13D with being spaced respectively.In other words, flat valve 10D
First passage 101D, second channel 102D, third channel 103D, fourth lane 104D, the Five-channel 105D,
6th channel 106D, the 7th channel 107D, the 8th channel 108D, the 12nd channel 1012D and the tenth four-way
1014D is respectively formed the access portal for being arranged on the first fluid control plane 120D of fixed valve plate 12D, and the 9th
Channel 109D, the tenth channel 1010D, the 11st channel 1011D and the tenth triple channel 1013D are respectively formed a quilt
The access portal of the second fluid control plane 130D of moving valve plate 13D is set, as the moving valve plate 13D of flat valve 10D
The opposite quilt cover (second fluid control plane 130D) (first fluid control plane 120D) setting, and moving valve plate 13D relatively should
When fixed valve plate 12D is rotated, the channel for being arranged on moving valve plate 13D passes through corresponding with the channel for being arranged on fixed valve plate 12D
Access portal be selectively connectable it is logical, thus formed corresponding communicating passage and control fluid (such as water flow) flow direction.
It is appreciated that the first passage 101D of flat valve 10D, second channel 102D, third channel 103D, is somebody's turn to do
Fourth lane 104D, the Five-channel 105D, the 6th channel 106D, the 7th channel 107D, the 8th channel 108D, this
Nine channel 109D, the tenth channel 1010D, the 11st channel 1011D, the 12nd channel 1012D, the tenth triple channel
1013D and the tenth four-way 1014D can have any extension path (or side that can be realized interconnected relationship herein
To);First passage 101D, second channel 102D, the third channel 103D, the fourth lane of flat valve 10D
104D, the Five-channel 105D, the 6th channel 106D, the 7th channel 107D, the 8th channel 108D, the 12nd channel
It opens in the channel for the first fluid control plane 120D that 1012D and the tenth four-way 1014D are respectively formed at fixed valve plate 12D
Mouth and the 9th channel 109D, the tenth channel 1010D, the 11st channel 1011D and the tenth triple channel 1013D difference
It is formed in the access portal of the second fluid control plane 130D of moving valve plate 13D, can have any can be realized phase herein
The shape of intercommunicated relationship.For example, the 8th channel 108D is formed in the first fluid control plane 120D's of fixed valve plate 12D
Access portal can be arranged to have a regular shape, can also be arranged to have an irregular shape.Therefore, the plane
First passage 101D, second channel 102D, third channel 103D, the fourth lane 104D, the Five-channel of valve 10D
105D, the 6th channel 106D, the 7th channel 107D, the 8th channel 108D, the 9th channel 109D, the tenth channel
1010D, the 11st channel 1011D, the 12nd channel 1012D, the tenth triple channel 1013D and the tenth four-way
The extension path (or direction) of 1014D and the shape of its access portal should not become limitations of the present invention.
As shown in Figure 128 A to Figure 138 G of attached drawing, it is preferable that channel herein is closed, and refers to respective channel shape
At the second fluid control of the first fluid control plane 120D and moving valve plate 13D of the fixed valve plate 12D in flat valve 10D
The access portal of face 130D is in the specific works position (or working condition of water treatment system) of flat valve 10D, by the moving valve plate
The entity part of 13D and fixed valve plate 12D covers, and can not be connected by access portal so as to cause between respective channel.Example
Such as, when flat valve 10D is in the first working position, the 6th of the entity part face of moving valve plate 13D flat valve 10D the
Channel 106D and the 7th channel 107D is formed in the access portal of the first fluid control plane 120D of fixed valve plate 12D, thus
Make the 6th channel 106D and the 7th channel 107D of flat valve 10D by moving valve plate 13D closing (or obstruction), this determines valve
The 11st channel 1011D of the entity part face of piece 12D flat valve 10D is formed in the second fluid of moving valve plate 13D
The access portal of control plane 130D, so that the 11st channel 1011D of flat valve 10D be made to be closed by the fixed valve plate 12.Phase
Ying Di is arranged on being connected between the channel of moving valve plate 13D and the channel for being arranged on fixed valve plate 12D herein, refers to
Be to be arranged on the logical of moving valve plate 13D in the specific works position (or working condition of water treatment system) of flat valve 10D
Road is formed in the access portal of the second fluid control plane 130D of moving valve plate 13D and is arranged on the logical of fixed valve plate 12D
The access portal that road forms the first fluid control plane 120D of fixed valve plate 12D, which selectively partially or is just aligned and is formed, to be permitted
Perhaps the water-flowing path that water flow passes through.For example, the 9th of flat valve 10D is logical when flat valve 10D is in the first working position
Road 109D aligns with first passage 101D, thus both make first communicating passage 1001D that is connected and formed, the tenth
Channel 1010D aligns with third channel 103D and the Five-channel 105D respectively, so that the two be made to be connected and form this
Second communicating passage 1002D, the tenth triple channel 1013D respectively with the 8th channel 108D and the 12nd channel 1012D phase
Alignment, to both make the third connecting channel 1003D that is connected and formed.
As shown in Figure 135 A to Figure 135 F and Figure 137 A to Figure 137 D of attached drawing, according to the 5th preferred embodiment of the utility model
The first passage 101D of flat valve 10D of water treatment system, the 8th channel 108D, second channel 102D, this
Four-way 104D, the tenth four-way 1014D, the 7th channel 107D, the 6th channel 106D, the Five-channel 105D and should
Third channel 103D is deasil arranged in fixed valve plate 12D with this sequence;The 11st channel 1011D of flat valve 10D,
Tenth channel 1010D, the 9th channel 109D and the tenth triple channel 1013D are deasil arranged in the dynamic valve with this sequence
Piece 13D.Optionally, the first passage 101D of flat valve 10D, the 8th channel 108D, second channel 102D, this
Four-way 104D, the tenth four-way 1014D, the 7th channel 107D, the 6th channel 106D, the Five-channel 105D and should
Third channel 103D is widdershins arranged in fixed valve plate 12D with this sequence;The 11st channel 1011D of flat valve 10D,
Tenth channel 1010D, the 9th channel 109D and the tenth triple channel 1013D are widdershins arranged in the dynamic valve with this sequence
Piece 13D.
As shown in Figure 135 A to Figure 135 F and Figure 137 A to Figure 137 D of attached drawing, according to the 5th preferred embodiment of the utility model
The fixed valve plate 12D of flat valve 10D of water treatment system have that a first central part 121D, one from first center
The outwardly extending first extension 122D of portion 121D and one are from the outwardly extending first edge portion of first extension 122D
123D, moving valve plate 13D prolong with a second central part 131D, one from second central part 131D outwardly extending second
Extending portion 132D and one from the second extension outwardly extending second edge portion 133D of 132D, wherein fixed valve plate 12D should
First fluid control plane 120D has central part 1200D shown in a figure chain lines, wherein central part 1200D quilt
Set on first central part 121D of fixed valve plate 12D, and except the central part 1200D of first fluid control plane 120D
Part be divided into a first part 1201D, a second part 1202D shown in chain-dotted line, a third clockwise
Part 1203D, a Part IV 1204D, a Part V 1205D, a Part VI 1206D, a Part VII
1207D, a Part VIII 1208D, a Part IX 1209D, a Part X 12010D and one the tenth a part
12011D;The second fluid control plane 130D of the moving valve plate 13D of flat valve 10D has shown in a figure chain lines
Central area 1300D, wherein central area 1300D is set to second central part 131D of moving valve plate 13D, and the second
Part except the central area 1300D of body control plane 130D is divided into a first area shown in chain-dotted line clockwise
1301D, a second area 1302D, a third region 1303D, a fourth region 1304D, the 5th region
1305D, a 6th region 1306D, a District 7 domain 1307D, a Section Eight domain 1308D, the 9th region
1309D, a tenth region 13010D and a 11st region 13011D;Wherein first passage 101D is from the first fluid
The first part 1201D of control plane 120D is extended downwardly;The first fluid control of 8th channel 108D from fixed valve plate 12D
Second part 1202D, the Part III 1203D and Part IV 1204D of face 120D processed is extended downwardly;The second channel
The Part V 1205D of 102D from the first fluid control plane 120D of fixed valve plate 12D are extended downwardly;The fourth lane
The Part VI 1206D of 104D from the first fluid control plane 120D of fixed valve plate 12D are extended downwardly;Tenth four-way
The Part VII 1207D of 1014D from the first fluid control plane 120D of fixed valve plate 12D are extended downwardly;7th channel
The Part VIII 1208D of 107D from first fluid control plane 120D are extended downwardly;6th channel 106D is first-class from this
The Part IX 1209D of body control plane 120D is extended downwardly;The Five-channel 105D is from first fluid control plane 120D's
Part X 12010D and the tenth a part of 12011D are extended downwardly;Third channel 103D is from the first fluid control plane
The tenth a part of 12011D of 120D is extended downwardly;12nd channel 1012D should from first fluid control plane 120D's
Second part 1202D is extended downwardly;9th channel 109D from the first area 1301D of second fluid control plane 130D to
Upper extension;The second area 1302D of tenth triple channel 1013D from second fluid control plane 130D are upwardly extended;This
The 9th region 1309D of 11 channel 1011D from second fluid control plane 130D are upwardly extended;Tenth channel 1010D
It is upwardly extended from the tenth region 13010D and the 11st region 13011D of second fluid control plane 130D.
It is appreciated that when the second fluid control plane 130D of moving valve plate 13D be arranged on fixed valve plate 12D this
When one fluid control plane 120D, the second central part 131D face of the second fluid control plane 130D of moving valve plate 13D should
The second fluid of first central part 121D, moving valve plate 13D of the first fluid control plane 120D of fixed valve plate 12D control
First extension of the first fluid control plane 120D of the second extension 132D face fixed valve plate 12D of face 130D
Second edge portion 133D face fixed valve plate 12D of the second fluid control plane 130D of 122D, moving valve plate 13D this
The first edge portion 123D of one fluid control plane 120D.
Optionally, the first fluid control plane 120D and moving valve plate 13D of the fixed valve plate 12D of flat valve 10D
Second fluid control plane 130D is circle, first passage 101D, second channel 102D, third channel 103D, is somebody's turn to do
Fourth lane 104D, the Five-channel 105D, the 6th channel 106D, the 7th channel 107D, the 8th channel 108D, this
12 channel 1012D and the tenth four-way 1014D are radially set to the first fluid control plane of fixed valve plate 12D
120D, and the 9th channel 109D, the tenth channel 1010D and the tenth triple channel 1013D are radially set to the moving valve plate
The second fluid control plane 130D of 13D.
Preferably, the first passage 101D of flat valve 10D, second channel 102D, third channel 103D, this
Four-way 104D, the 6th channel 106D, the 7th channel 107D, the 8th channel 108D and the tenth four-way 1014D points
It is not arranged on first extension 122D, the Five-channel 105D of the first fluid control plane 120D of fixed valve plate 12D
Be arranged on the first edge portion 123D of first fluid control plane 120D, the 12nd channel 1012D be arranged on this
The first edge portion 123D of one fluid control plane 120D.It is highly preferred that the Five-channel 105D is arranged on the first fluid
The first edge portion 123D of control plane 120D simultaneously inwardly prolongs from the first edge portion 123D of first fluid control plane 120D
Extend to first extension 122D of first fluid control plane 120D.
Preferably, it is dynamic to be respectively set at this by the 9th channel 109D and the 11st channel 1011D of flat valve 10D
Second extension 132D, the tenth channel 1010D and the tenth triple channel of the second fluid control plane 130D of valve block 13D
1013D be respectively set at the second edge portion 133D of the second fluid control plane 130D of moving valve plate 13D and from this
Two edge part 133D extend inwardly to second extension 132D.
Preferably, first fluid control plane 120D of the first passage 101D of flat valve 10D from fixed valve plate 12D
It extends downwardly and outwardly, second channel 102D downwardly and outwardly prolongs from the first fluid control plane 120D of fixed valve plate 12D
It stretches, third channel 103D is extended downwardly and outwardly from the first fluid control plane 120D of fixed valve plate 12D, the four-way
Road 104D extends downwardly and outwardly from the first fluid control plane 120D of fixed valve plate 12D, the Five-channel 105D from this determines valve
The first fluid control plane 120D of piece 12D extends downwardly and outwardly, the 6th channel 106D is from the first fluid of fixed valve plate 12D
Control plane 120D is extended downwardly and outwardly, the first fluid control plane 120D of the 7th channel 107D from fixed valve plate 12D are downward
With extend outwardly, the 8th channel 108D is extended downwardly and outwardly from the first fluid control plane 120D of fixed valve plate 12D, should
12nd channel 1012D extends downwardly and outwardly from the first fluid control plane 120D of fixed valve plate 12D, the tenth four-way
Road 1014D is extended downwardly and outwardly from the first fluid control plane 120D of fixed valve plate 12D.
As shown in Figure 121 to Figure 127 of attached drawing, according to the water treatment system of the 5th preferred embodiment of the utility model this be flat
The valve body 11D of face valve 10D has an inner wall 111D, and wherein fixed valve plate 12D is suitable for first fluid control plane 120D court
Shangdi is set to inner cavity 110D and moving valve plate 13D and is set to inner cavity 110D facing downward suitable for second fluid control plane 130D,
Wherein inner cavity 110D is connected with the 9th channel 109D always.It is worth noting that, the fixed valve plate of flat valve 10D
12D can be removably disposed in the inner wall 111D of valve body 11D, can also be with the valve body 11D's of flat valve 10D
Inner wall 111D phase is integrally formed.It will be understood by those skilled in the art that when fixed valve plate 12D is removably disposed in the valve
When in body 11D, fixed valve plate 12D and the valve body are kept by a fixed mechanism between fixed valve plate 12D and valve body 11D
Synchronization between 11D.For example, as shown in Figure 121 to Figure 127 of attached drawing, fixed valve plate 12D have one from fixed valve plate 12D
The outwardly projecting brake component 123D in edge, the inner wall 111D of valve body 11D has a breaker slot 1110D, and wherein this is fixed
The brake component 123D of valve block 12D, which is set, to be meshed with the breaker slot 1110D of the inner wall 111D of valve body 11D,
It is fixed to ensure to be synchronised between fixed valve plate 12D and valve body 11D (or will not relatively rotate) and ensure to be arranged on this
Each channel of valve block 12D is connected with the corresponding opening for being arranged on valve body 11D.It is appreciated that working as fixed valve plate 12D quilt
When being removably disposed in valve body 11D, fixed valve plate 12D is separately manufactured.In other words, at this point, fixed valve plate 12D
It can be made of wear-resistant material, to improve the service life of fixed valve plate 12D (or entire flat valve).Preferably, the fixed valve plate
The smoothed processing of the first fluid control plane 120D of 12D is to reduce its degree of roughness.
As shown in Figure 121 to Figure 127 of attached drawing, according to the water treatment system of the 5th preferred embodiment of the utility model this be flat
Face valve 10D further comprises a diversion member 15D, and wherein diversion member 15D forms drain outlet 150D, and wherein this is led
Fluid element 15D is set to be upwardly extended and the drain outlet 150D of diversion member 15D is flat with this respectively from moving valve plate 13D
9th opening 1109D of face valve is connected with the 11st channel 1011D, and (the 9th opening 1109D is arranged on the plane
The valve body 11D of valve 10D) or drain outlet 150D directly with the 9th opening 1109D be connected (the 9th opening
1109D is arranged on the moving valve plate 13D of flat valve 10D, and is connected with the 11st channel 1011D) so that sewage
Or waste water can be from its outflow.
As shown in Figure 121 to Figure 127 of attached drawing, according to the water treatment system of the 5th preferred embodiment of the utility model this be flat
Face valve 10D further comprises the driving element 18D upwardly extended from moving valve plate 13D, and wherein driving element 18D is set
Setting can drive the moving valve plate 13D of flat valve 10D to rotate with respect to fixed valve plate 12D.Preferably, the driving element
18D is integrally formed with diversion member 15D phase.Optionally, driving element 18D and diversion member 15D is two independent
Mechanism.
As shown in Figure 121 to Figure 127 of attached drawing, according to the water treatment system of the 5th preferred embodiment of the utility model this be flat
Face valve 10D further comprises a sealing element 17D, and wherein sealing element 17D is set facing with driving element 18D
Face, wherein sealing element 17D forms a primary sealing area 170D, and driving element 18D forms a secondary sealing area
180D, wherein the primary sealing area 170D of sealing element 17D is arranged on the secondary sealing area of driving element 18D
180D, so that when driving element 18D is rotated relative to sealing element 17D, to drive moving valve plate 13D fixed with respect to this
When valve block 12D is rotated, the leakage of water is sealed and prevented between driving element 18D and sealing element 17D.In addition, this is close
Envelope element 17D, which is set, to be able to maintain driving element 18D and be in appropriate location, to keep moving valve plate 13D in one
Predeterminated position.
As shown in Figure 121 to Figure 127 of attached drawing, according to the water treatment system of the 5th preferred embodiment of the utility model this be flat
The diameter of the slightly smaller than inner cavity 110D of valve body 11D is set in the diameter of the moving valve plate 13D of face valve 10D, so that this is flat
The 9th channel 109D of face valve 10D can keep being connected with the inner cavity 110D of valve body 11D by water inlet 1091D.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
Water treatment system flat valve 10D control device 16D be set can according to a purification-softening control instruction,
By a transmission mechanism 14D, such as transmission gear drives driving element 18D to rotate, with drive flat valve 10D this is dynamic
Valve block 13D is rotated relative to fixed valve plate 12D, to form the inner cavity with the valve body 11D of flat valve 10D respectively
The first communicating passage 1001D that the opening of 110D and the 5th 1105D is connected, one second opened with this of valve body 11D respectively
Mouthful 1102D and the 7th be open the second communicating passage 1002D that 1107D is connected and one respectively with valve body 11D this
The third connecting channel 1003D that six opening 1106D are connected with the 8th opening 1108D, to allow raw water from valve body 11D's
The 5th opening of inner cavity 110D, first communicating passage 1001D formed by flat valve 10D, valve body 11D
1105D, the purification device 20 the first connection opening 201 flow into the purification device 20, raw water is net by the purification device 20
The water purification obtained after change processing is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way, wherein
Water purification flows into the Softening box 31 through first lead-through opening 301 of the Softening box 31 all the way, and is softened after softened processing
Water, softened water are flowed out from second lead-through opening 302 of the Softening box 31, then the 7th opening through valve body 11D
Second communicating passage 1002D of 1107D, flat valve 10D, most afterwards through valve body 11D this second opening 1102D outflow and
Softened water is supplied to user, another way water purification flows through the third of the 6th opening 1106D of valve body 11D, flat valve 10D
Communicating passage 1003D, most the 8th opening 1108D through valve body 11D flows out and supplies water purification to user afterwards;According to one
Soften filter core (softening plant) backwash control instruction, by transmission mechanism 14D, such as transmission gear drives driving element 18D
Rotation is put down with this with driving the moving valve plate 13D of flat valve 10D to rotate relative to fixed valve plate 12D to form one respectively
The 4th communicating passage 1004D and one that the inner cavity 110D of the valve body 11D of face valve 10D is connected with the 7th opening 1107D
A the 5th to be connected respectively with the 9th opening 1109D of the 6th opening 1106D and flat valve 10D of valve body 11D
Communicating passage 1005D, to allow raw water to be flowed into the inner cavity of valve body 11D from first opening 1101D of valve body 11D
Then 110D flows into the 7th opening 1107D by the 4th communicating passage 1004D that flat valve 10D is formed, then soft through this
Second lead-through opening 302 for changing case 31 flows into the Softening box 31, and to softener material (or the water process material in the Softening box 31
Material), such as softening resin, after back flush, obtained sewage or waste water is flowed from first lead-through opening 301 of the Softening box 31
Out, the 6th opening 1106D for then flowing through valve body 11D flows into the 5th communicating passage 1005D of flat valve 10D, so
Afterwards from the 9th of flat valve 10D opening 1109D outflow, meanwhile, it also forms one and second is opened with this of valve body 11D respectively
The 16th communicating passage 10016D that mouthful 1102D is connected with inner cavity 110D, with allow raw water from valve body 11D this
One opening 1101D is flowed into the inner cavity 110D of valve body 11D, then flows into the valve by the 16th communicating passage 10016D
Second opening 1102D of body 11D, provides raw water to user, also forms one and be open respectively with the 8th of valve body 11D the
The 17th communicating passage 10017D that 1108D is connected with inner cavity 110D, to allow raw water first to open from this of valve body 11D
Mouth 1101D is flowed into the inner cavity 110D of valve body 11D, then flows into the valve body by the 17th communicating passage 10017D
The 8th opening 1108D of 11D, provides raw water to user;According to a purification device backwash control instruction, pass through the transmission
Mechanism 14D, such as transmission gear drive driving element 18D to rotate, to drive the moving valve plate 13D of flat valve 10D is opposite should
Fixed valve plate 12D rotation is connected with the opening of the inner cavity 110D of valve body 11D and the 6th 1106D respectively to form one
The 6th communicating passage 1006D and one respectively with the 5th of valve body 11D opening 1105D and flat valve 10D this
The 7th communicating passage 1007D that nine opening 1109D are connected, to allow the first opening 1101D stream of raw water from valve body 11D
Enter the inner cavity 110D to valve body 11D, then by the 6th communicating passage 1006D flow into the 6th opening 1106D, then into
Enter the purification device 20 this second connection opening 202, in the purification device 20 material for water treatment or mechanism back flush
Afterwards, from 201 outflow of the first connection opening of the purification device 20, the 5th opening 1105D stream of valve body 11D is then flowed through
Enter the 7th communicating passage 1007D, then from the 9th opening 1109D outflow of flat valve 10D, meanwhile, also form one
The 16th communicating passage 10016D being connected respectively with second opening 1102D and inner cavity 110D of valve body 11D, to permit
Perhaps raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the tenth
Six communicating passage 10016D flow into second opening 1102D of valve body 11D, provide raw water to user, also form one point
The tenth eight connectivity channel 10018D not being connected with the 8th opening 1108D and inner cavity 110D of valve body 11D, to allow
Raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the 18th
Communicating passage 10018D flows into the 8th opening 1108D of valve body 11D, provides raw water to user.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
The control device 16D of flat valve 10D of water treatment system be further set and can be regenerated according to softening filter core
Control instruction, by transmission mechanism 14D, such as transmission gear drives driving element 18D to rotate, to drive flat valve 10D
Moving valve plate 13D relative to fixed valve plate 12D rotate, thus formed one respectively with the inner cavity 110D of valve body 11D and this
Eight connectivity channel 1008D that third opening 1103D is connected, one be open respectively with the 6th of the valve body 11D 1106D and
4th the 9th communicating passage 1009D that is connected of opening 1104D and one respectively with the 7th opening of valve body 11D
The tenth communicating passage 10010D that 1107D is connected with the 9th opening 1109D of flat valve 10D, to allow raw water certainly should
First opening 1101D of valve body 11D is flowed into the inner cavity 110D of valve body 11D, then passes through the eight connectivity channel
1008D flows into third opening 1103D, then flows into the exit wound of bullet 321 of the ejector 32, by 32 jet stream of ejector, mixes
The entry portal 322 through the ejector 32 flows into the 4th opening of valve body 11D after liquid of the conjunction from the brine tank 33
1104D, then flows into the 6th opening 1106D by the 9th communicating passage 1009D, this into the Softening box 31 first is led
It opens up mouth 301, after the softening resin in the co-current regeneration Softening box 31, is flowed out from second lead-through opening 302, then flow through this
The 7th opening 1107D of valve body 11D flows into the tenth communicating passage 10010D, and then the 9th from flat valve 10D opens
Mouth 1109D outflow, meanwhile, it also forms one and is connected respectively with second opening 1102D and inner cavity 110D of valve body 11D
The 16th logical communicating passage 10016D, to allow raw water to be flowed into the valve body from first opening 1101D of valve body 11D
Then the inner cavity 110D of 11D flows into second opening 1102D of valve body 11D by the 16th communicating passage 10016D,
Raw water is provided to user, one is also formed and is connected respectively with the 8th opening 1108D and inner cavity 110D of valve body 11D
The 17th communicating passage 10017D, with allow raw water from valve body 11D this first opening 1101D be flowed into valve body 11D
Inner cavity 110D, then by the 17th communicating passage 10017D flow into valve body 11D the 8th opening 1108D, to
User provides raw water;Control instruction is just washed according to a softening filter core (softening plant), by transmission mechanism 14D, is such as passed
Moving gear drives driving element 18D to rotate, to drive the moving valve plate 13D of flat valve 10D to turn with respect to fixed valve plate 12D
It is dynamic, to form the 11st connection being connected respectively with the opening of the inner cavity 110D of valve body 11D and the 6th 1106D
The 9th opening of channel 10011D and the 1107D and flat valve 10D that is open respectively with the 7th of valve body 11D the
The 12nd communicating passage 10012D that 1109D is connected, to allow raw water to flow into from first opening 1101D of valve body 11D
To the inner cavity 110D of valve body 11D, the 6th opening 1106D is then flowed by the 11st communicating passage 10011D, then
Into first lead-through opening 301 of the Softening box 31, to the material for water treatment in the Softening box 31 or after mechanism forward direction rinses,
It is flowed out from second lead-through opening 302 of the Softening box 31, the 7th opening 1107D for then flowing through valve body 11D, which is flowed into, to be somebody's turn to do
12nd communicating passage 10012D, then from the 9th opening 1109D outflow of flat valve 10D, meanwhile, also form one point
The 16th communicating passage 10016D not being connected with second opening 1102D and inner cavity 110D of valve body 11D, to allow
Raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the 16th
Communicating passage 10016D flows into second opening 1102D of valve body 11D, provides raw water to user, also forms a difference
The tenth eight connectivity channel 10018D being connected with the 8th opening 1108D and inner cavity 110D of valve body 11D, to allow
Raw water is flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then passes through the 18th
Communicating passage 10018D flows into the 8th opening 1108D of valve body 11D, provides raw water to user.
As shown in Figure 128 A to Figure 134 and Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
The control device 16D of flat valve 10D of water treatment system be further set and can just washed according to a purification device
Control instruction, by transmission mechanism 14D, such as transmission gear drives driving element 18D to rotate, to drive flat valve 10D
Moving valve plate 13D relative to fixed valve plate 12D rotate, thus formed one respectively with the inner cavity 110D of valve body 11D and this
5th the tenth tee joint channel 10013D that is connected of opening 1105D and one respectively with the 6th opening of valve body 11D
The 14th communicating passage 10014D that 1106D is connected with the 9th opening 1109D of flat valve 10D, to allow raw water certainly
First opening 1101D of valve body 11D is flowed into the inner cavity 110D of valve body 11D, then logical by the tenth tee joint
Road 10013D flows into the 5th opening 1105D, enters back into the first connection opening 201 of the purification device 20, fills to the purification
After setting material for water treatment or the flushing of mechanism forward direction in 20, from 202 outflow of the second connection opening of the purification device 20, then
The 6th opening 1106D for flowing through valve body 11D flows into the 14th communicating passage 10014D, then from flat valve 10D's
9th opening 1109D outflow, meanwhile, also formed one respectively with the second opening 1102D and inner cavity of valve body 11D
The 16th communicating passage 10016D that 110D is connected, to allow raw water to flow into from first opening 1101D of valve body 11D
To the inner cavity 110D of valve body 11D, this of valve body 11D is then flowed by the 16th communicating passage 10016D and second is opened
Mouth 1102D provides raw water to user, also forms be open respectively with the 8th of valve body 11D the 1108D and the inner cavity
The 17th communicating passage 10017D that 110D is connected, to allow raw water to flow into from first opening 1101D of valve body 11D
To the inner cavity 110D of valve body 11D, the 8th of valve body 11D the then is flowed by the 17th communicating passage 10017D
Be open 1108D, provides raw water to user;According to a moisturizing control instruction, by transmission mechanism 14D, such as transmission gear,
Driving element 18D is driven to rotate, to drive the moving valve plate 13D of flat valve 10D to rotate relative to fixed valve plate 12D, thus
Form the 15th communicating passage being connected respectively with the opening of the inner cavity 110D of valve body 11D and the 4th 1104D
10015D, to allow raw water to be flowed into the inner cavity 110D of valve body 11D from first opening 1101D of valve body 11D, then
The 4th opening 1104D is flowed by the 15th communicating passage 10015D, then flows into the entry portal 322 of the ejector 32,
To 33 moisturizing of brine tank, meanwhile, also formed one respectively with second opening 1102D and inner cavity 110D phase of valve body 11D
16th communicating passage 10016D of connection, to allow raw water to be flowed into the valve body from first opening 1101D of valve body 11D
Then the inner cavity 110D of 11D flows into second opening of valve body 11D by the 16th communicating passage 10016D
1102D provides raw water to user, also forms the 1108D and inner cavity 110D that is open respectively with the 8th of valve body 11D the
The 17th communicating passage 10017D being connected, to allow raw water to be flowed into the valve from first opening 1101D of valve body 11D
Then the inner cavity 110D of body 11D flows into the 8th opening of valve body 11D by the 17th communicating passage 10017D
1108D provides raw water to user.
It is worth noting that, correspondingly, when the water treatment system according to the 5th preferred embodiment of the utility model be in this
Five working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016D is visual
The a part in water route is supplied for first raw water), wherein first raw water supply water route, which is set, allows raw water that can flow through this
Raw water is supplied water route and is provided by second opening 1102D of valve body 11D;When according to the preferably implementation of the utility model the 5th
The water treatment system of example is in second working condition, the third working condition, the 4th working condition, the 5th work shape
When state, the 6th working condition and seven working conditions, which forms second raw water and supplies water route, wherein
Second raw water supply water route, which is set, allows raw water that can flow through raw water supply water route and by the 8th of valve body 11D
Opening 1108D is provided.Preferably, the water treatment system is in second working condition, the 4th working condition, the 6th work
Second raw water supply water route that state and the 7th working condition are formed (the 17th communicating passage 10017D participates in being formed,
Can be considered second raw water supply water route a part), the water treatment system the third working condition and the 5th work shape
(the tenth eight connectivity channel 10018D participates in being formed, and can be considered that second raw water supplies in morphogenetic second raw water supply water route
Answer a part in water route) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of control device 16D, can also pass through an electronics
Communication network passes through an input interface input received from a controlling terminal, or by user.For example, working as the utility model
Water treatment system is provided having the input interface for flat valve 10D, when such as Trackpad or control button, uses
Person can send above-mentioned control instruction to the control module of control device 16D by touch panel or corresponding control button, with
The control module of control device 16D is set to control the motor rotation of control device 16D, to pass through a transmission mechanism 14D
Driving element 18D is driven to rotate.
As shown in Figure 121 to Figure 122, Figure 136 A to Figure 136 G of attached drawing, according to the 5th preferred embodiment of the utility model
Water treatment system illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element,
Wherein the purification device 20 includes that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on
Filter house 23 in the shell 21, wherein the filter house 23 can be the ultrafiltration silk for ultra-filtration filters, net type filter or
Laminated filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, as attached
Shown in Figure 136 A to Figure 136 G of figure, the softening plant 30 of the utility model water treatment system includes a Softening box 31,
In the Softening box 31 include 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, the wherein cabinet 311
With 3110, first lead-through openings 301 of a softening chamber and second lead-through opening 302, the wherein liquid collecting unit 312
Including a central tube 3121, which is suitable for being contained within the softening chamber 3110, wherein the central tube
3121 are suitable for being connected with second lead-through opening 302, and wherein the central tube 3121 has one high end opening 31211 and one
A low side opening 31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting
The low side opening 31212 of the central tube 3121 of unit 312 flows into the central tube 3121 and the high end opening from the central tube 3121
31211 outflows;Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, is had
The active carbon of softening performance or other similar softener materials or combinations thereof.
With reference to shown in Figure 143 A to Figure 146 G of attached drawing, according to the water treatment system of the utility model the 5th preferred embodiment
The optional implementation of one kind of flat valve 10D is elucidated with, and wherein flat valve 10T has a first passage 101D, and one second
Channel 102D, third channel a 103D, a fourth lane 104D, a Five-channel 105T, a 6th channel 106D,
One the 7th channel 107D, a 8th channel 108D, a 9th channel 109D, a tenth channel 1010D, one the tenth
One channel 1011D, a 12nd channel 1012T, a tenth triple channel 1013D and a tenth four-way 1014D, wherein
First passage 101D, it second channel 102D, third channel 103D, fourth lane 104D, the Five-channel 105T, is somebody's turn to do
6th channel 106D, the 7th channel 107D, the 8th channel 108D, the 12nd channel 1012T and the tenth four-way
1014D is respectively arranged on fixed valve plate 12D and extends respectively from the first fluid control plane 120D of fixed valve plate 12D;9th
Channel 109D, the tenth channel 1010D, the 11st channel 1011D and the tenth triple channel 1013D are respectively arranged on the dynamic valve
Piece 13D simultaneously extends from the second fluid control plane 130D of moving valve plate 13D, first passage 101D and the second channel respectively
102D is connected with the 5th opening 1105D respectively, and third channel 103D and fourth lane 104D are opened with the 7th respectively
Mouth 1107D is connected, which is connected with second opening 1102D, and the 6th channel 106D is opened with the third
Mouth 1103D is connected, and the 7th channel 107D is connected with the 4th opening 1104D, the 8th channel 108D and the 14th
Channel 1014D is connected with the 6th opening 1106D respectively, and the 12nd channel 1012T is connected with the 8th opening 1108D
Logical, the 9th channel 109D is connected with the inner cavity 110D of valve body 11D, the 11st channel 1011D and the 9th opening
1109D is connected.
As shown in Figure 143 A to Figure 146 G of attached drawing, when flat valve 10T is in the second working position, flat valve 10T
The Five-channel 105T and the 12nd channel 1012T respectively by moving valve plate 13D close;When flat valve 10T is in the
When three working positions, the Five-channel 105T of flat valve 10T is closed by moving valve plate 13D;When flat valve 10T is in the 4th
When working position, Five-channel 105T and the 12nd channel 1012T of flat valve 10T is sealed by moving valve plate 13D respectively
It closes;When flat valve 10T is in five working positions, the Five-channel 105T of flat valve 10T is closed by moving valve plate 13D;
When flat valve 10T is in six working positions, the Five-channel 105T and the 12nd channel 1012T of flat valve 10T
It is closed respectively by moving valve plate 13D;When flat valve 10T is in seven working positions, the Five-channel of flat valve 10T
105T and the 12nd channel 1012T is closed by moving valve plate 13D respectively.In other words, flat valve 10T and the flat valve
10D the difference is that, when the flat valve 10T of the water treatment system according to the 5th preferred embodiment of the utility model be in this
When two working positions, the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions,
Flat valve 10T does not re-form (or can not be formed) the 16th communicating passage 10016D;When flat valve 10T be in this second
When working position, the 4th working position, the 6th working position and seven working positions, flat valve 10T is not re-formed (or can not shape
At) the 17th communicating passage 10017D.In other words, when flat valve 10T is in second working position, the 4th work
When position, the 6th working position and seven working positions, flat valve 10T does not pass through the second opening 1102D and the 8th opening
1108D provides pending water (or raw water);When flat valve 10T is in the third working position and five working positions, this is flat
Face valve 10T does not pass through second opening 1102D and provides pending water (or raw water).
With reference to Figure 147 to Figure 172 G of the utility model attached drawing, according to the water process of the 6th preferred embodiment of the utility model
System is illustrated, and it is suitable for carrying out purifying-sofening treatment to pending water (or raw water), wherein the water treatment system includes
One fluid valve 10E, a purification device 20 and a softening plant 30, wherein fluid valve 10E include valve body 11E and
One spool 1E, wherein fluid valve 10E has an inner cavity 110E, a first opening 1101E, second opening
1102E, a third opening 1103E, a 4th opening 1104E, a 5th opening 1105E, the 6th opening
1106E, one the 7th opening 1107E, the 8th 1108E and one a 9th opening 1109E of opening, wherein spool 1E quilt
It is arranged in inner cavity 110E.It is appreciated that first opening 1101E, second opening 1102E, third opening 1103E, is somebody's turn to do
4th opening 1104E, the 5th opening 1105E, the 6th opening 1106E, the 7th opening 1107E and the 8th opening
1108E is preferably spaced apart valve body 11E in fluid valve 10E.It is highly preferred that the 9th opening 1109E also by
The valve body 11E of fluid valve 10E is set.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
The water treatment system have first working condition, second working condition and a third working condition, wherein when
When the water treatment system is in first working condition, fluid valve 10E forms one and first opens with this of valve body 11E respectively
Mouthful 1101E and the 5th be open the first communicating passage 1001E that 1105E is connected, one respectively with valve body 11E this
Two opening 1102E and the 7th are open the second communicating passage 1002E for being connected of 1107E and one respectively with valve body 11E's
The third connecting channel 1003E that 6th opening 1106E is connected with the 8th opening 1108E, when the water treatment system is in
When second working condition, fluid valve 10E formed one respectively with valve body 11E this first opening 1101E and the 7th
The 4th communicating passage 1004E that is connected of opening 1107E and one respectively with the 6th opening 1106E of valve body 11E and this
The 5th communicating passage 1005E that 9th opening 1109E is connected should when the water treatment system is in the third working condition
Fluid valve 10E forms that the 1106E that is open respectively with the first opening 1101E and the 6th of valve body 11E is connected
Six communicating passage 1006E and the opening of 1105E and the 9th 1109E that is open respectively with the 5th of valve body 11E the are connected
The 7th communicating passage 1007E.Preferably, further have one according to the water treatment system of the 6th preferred embodiment of the utility model
A 4th working condition and the 5th working condition, when the water treatment system is in four working conditions, the fluid valve
10E forms the eight connectivity being connected respectively with the first opening 1101E of valve body 11E and third opening 1103E
The 9th company that channel 1008E, the opening of 1106E and the 4th 1104E that is open respectively with the 6th of valve body 11E the are connected
Circulation passage 1009E and one be open that 1109E is connected with the 7th opening 1107E of valve body 11E and the 9th respectively the
Ten communicating passage 10010E, when the water treatment system is in five working conditions, fluid valve 10E formed one respectively with
The 11st communicating passage 10011E and one that the first opening 1101E of valve body 11E is connected with the 6th opening 1106E
The 12nd communicating passage that a opening of 1107E and the 9th 1109E that is open respectively with the 7th of valve body 11E the is connected
10012E.It is highly preferred that further there is one the 6th work according to the water treatment system of the 6th preferred embodiment of the utility model
State and the 7th working condition, when the water treatment system is in six working conditions, fluid valve 10E forms one
The tenth tee joint channel being connected respectively with the first opening 1101E of valve body 11E and the 5th opening 1105E
The 14th company that the 10013E and opening of 1106E and the 9th 1109E that is open respectively with the 6th of valve body 11E the is connected
Circulation passage 10014E, when the water treatment system is in seven working conditions, fluid valve 10E formed one respectively with this
The 15th communicating passage 10015E that the first opening 1101E of valve body 11E is connected with the 4th opening 1104E.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, further, when according to the utility model the 6th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13E and the fixed valve plate of flat valve 10E
12E forms the 16th company being connected respectively with the first opening 1101E of valve body 11E and second opening 1102E
Circulation passage 10016E;In second working condition, the 4th working condition, the 6th working condition and the 7th working condition
When, the moving valve plate 13E and fixed valve plate 12E of flat valve 10E formed one respectively with first opening of valve body 11E
The 17th communicating passage 10017E that 1101E is connected with the 8th opening 1108E;With the third working condition and this
When five working conditions, the moving valve plate 13E and fixed valve plate 12E of flat valve 10E forms one respectively with valve body 11E's
The tenth eight connectivity channel 10018E that the first opening 1101E is connected with the 8th opening 1108E.
As shown in Figure 147 to Figure 172 G of attached drawing, according to the stream of the water treatment system of the 6th preferred embodiment of the utility model
Body valve 10E is a flat valve, and wherein flat valve 10E further comprises a moving valve plate 13E and a fixed valve plate 12E,
In fixed valve plate 12E there is a first fluid control plane 120E, moving valve plate 13E to have a second fluid control plane
130E, wherein moving valve plate 13E and fixed valve plate 12E are arranged on inner cavity 110E, wherein moving valve plate 13E this second
Fluid control plane 130E is arranged on the first fluid control plane 120E of fixed valve plate 12E, and moving valve plate 13E is set
It can be rotated relative to fixed valve plate 12E, wherein the purification device 20 has one first connection opening 201 and one second company
Mouth 202 is opened up, wherein the softening plant 30 includes a Softening box 31, and wherein the Softening box 31 has first lead-through opening
301 and second lead-through opening 302, wherein the inner cavity 110E of valve body 11E is connected with first opening 1101E, should
The first connection opening 201 of purification device 20 is connected with the 5th opening 1105E of valve body 11E, the purification device 20
The second connection opening 202 and first lead-through opening 301 of the Softening box 31 be open with the 6th of valve body 11E
1106E is connected, and second lead-through opening 302 of the Softening box 31 is connected with the 7th opening 1107E of valve body 11E.
Therefore, when fluid valve 10E is a flat valve, the spool 1E of fluid valve 10E includes moving valve plate 13E and this determines valve
Piece 12E.Furthermore, it is to be understood that due to the inner cavity 110E and the first opening 1101E phase of the valve body 11E of flat valve 10E
Connection, therefore, pending water are provided by the first opening 1101E and inner cavity 110E.
As shown in Figure 147 to Figure 148 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
The softening plant 30 of water treatment system further comprises an ejector 32 and a brine tank 33, and wherein the ejector 32 has
There is one to be suitable for being suitable for and valve body 11E with the third of valve body 11E opening 1103E exit wound of bullet 321 being connected and one
The 4th entry portal 322 that is connected of opening 1104E, wherein the brine tank 33 is suitable for being connected with the ejector 32, thus
The saline solution from the brine tank 33 is set to flow to by the ejector 32 and the 4th opening 1104E, and through flat valve 10E
Softening box 31 of the softening plant 30, so that the softening resin in the Softening box 31 be made to be regenerated.Correspondingly, when this is practical
When Novel water treatment system is in a softening filter core suction salt reproduction operation state, raw water or pending water are from valve body 11E's
First opening 1101E is flowed into the inner cavity 110E of valve body 11E, is then flowed by an eight connectivity channel 1008E
Third opening 1103E, then the exit wound of bullet 321 of the ejector 32 is flowed into, by 32 jet stream of ejector, mixing comes from should
The entry portal 322 after the liquid of brine tank 33 through the ejector 32 flows into the 4th opening 1104E of valve body 11E, then
The 6th opening 1106E is flowed by a 9th communicating passage 1009E, into first lead-through opening of the Softening box 31
301, material for water treatment or mechanism in the co-current regeneration Softening box 31 flow after softening resin from second lead-through opening 302
Out, a tenth communicating passage 10010E is flowed into after then flowing through the 7th opening 1107E of valve body 11E, it is then flat from this
One the 9th opening 1109E of face valve 10E flows out.It is appreciated that although the utility model exemplarily only describes to pass through jet stream
Device 32 provides saline solution mode to Softening box 31, however, saline solution can also otherwise or mechanism is by flat valve 10E's
4th opening 1104E is provided to the Softening box 31.Therefore, in such a way that ejector 32 provides saline solution to Softening box 31 simultaneously
The limitation of the utility model should not be become.
It will be appreciated by those skilled in the art that the flat valve 10E of the utility model water treatment system can further have
One is arranged on the bindiny mechanism of valve body 11E, such as connection screw thread, snap fit connector, in order to flat valve 10E and the water
The other structures component of processing system, such as purification device, softening plant are connected, to guide water flow to flow to purification dress respectively
It sets, each communicating passage that the Softening box of softening plant and flat valve 10E are formed.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
The water treatment system have first working condition, second working condition and a third working condition, wherein when
When the water treatment system is in first working condition, the moving valve plate 13E and fixed valve plate 12E of flat valve 10E forms one
A the first communicating passage 1001E being connected respectively with the first opening 1101E of valve body 11E and the 5th opening 1105E,
One the second communicating passage being connected respectively with the second opening 1102E of valve body 11E and the 7th opening 1107E
The third connecting that the 1002E and opening of 1106E and the 8th 1108E that is open respectively with the 6th of valve body 11E the is connected
Channel 1003E, when the water treatment system is in second working condition, the moving valve plate 13E of flat valve 10E determines valve with this
Piece 12E forms the 4th company being connected respectively with the first opening 1101E of valve body 11E and the 7th opening 1107E
The 9th opening of circulation passage 1004E and the 1106E and flat valve 10E that is open respectively with the 6th of valve body 11E the
The 5th communicating passage 1005E that 1109E is connected, when the water treatment system is in the third working condition, flat valve 10E
Moving valve plate 13E and fixed valve plate 12E formed one respectively with valve body 11E this first opening 1101E and the 6th open
The 6th communicating passage 1006E that mouthful 1106E is connected and one respectively with the 5th opening 1105E of valve body 11E and this put down
The 7th communicating passage 1007E that the 9th opening 1109E of face valve 10E is connected.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
The water treatment system of example is when being in first working condition, first communicating passage 1001E that flat valve 10E is formed respectively with
Valve body 11E this first opening 1101E and the 5th be open 1105E be connected, second communicating passage 1002E respectively with this
Valve body 11E this second opening 1102E and the 7th be open 1107E be connected, third connecting channel 1003E respectively with this
The 1108E that is open of the 6th opening 1106E of valve body 11E and the 8th is connected, thus allow raw water from valve body 11E this
One opening 1101E is flowed into the inner cavity 110E of valve body 11E, and first connection then formed by flat valve 10E is logical
Road 1001E, valve body 11E the 5th opening 1105E, the purification device 20 this first connection opening 201 flow into the purification
Device 20, the second connection opening of the water purification that raw water obtains after 20 purified treatment of purification device from the purification device 20
202 outflows, then water purification is divided into two-way, wherein first lead-through opening 301 that water purification flows through the Softening box 31 all the way is flowed into and is somebody's turn to do
Softening box 31, and softened water is obtained after softened processing, softened water is flowed out from second lead-through opening 302 of the Softening box 31,
Then second communicating passage 1002E of the 7th opening 1107E through valve body 11E, flat valve 10E, most afterwards through the valve
Second opening 1102E of body 11E flows out and supplies softened water to user, and another way water purification flows through the 6th of valve body 11E
The third connecting channel 1003E of opening 1106E, flat valve 10E, most afterwards the 8th opening 1108E through valve body 11E
It flows out and supplies water purification to user.Therefore, when the water treatment system is in first working condition, the utility model water process
System can provide water purification and softened water to user simultaneously.Correspondingly, first working condition of the water treatment system corresponds to
The purification of the water treatment system-softening working condition.Therefore, when the water treatment system is in first working condition, the valve
Body 11E this first opening 1101E (or the inner cavity 110E of valve body 11E), valve body 11E the 5th opening 1105E, should
The first connection opening 201, the second connection opening 202, the softening plant 30 of the purification device 20 of purification device 20
First lead-through opening 301 of the Softening box 31, the Softening box 31 of the softening plant 30 second lead-through opening 302, should
Second opening 1102E of the 7th opening 1107E and valve body 11E of valve body 11E is sequentially communicated, to form one
The water-flowing path that the purification device 20 and the softening plant 30 are cascaded, so that raw water can be flowed from the purification device 20
To the softening plant 30 and it is cleaned raw water successively and sofening treatment.Meanwhile valve body 11E the 6th opening 1106E, should
The 8th opening 1108E of the third connecting channel 1003E and valve body 11E of flat valve 10E form a water purification supply branch
Road (water route), to provide water purification to user.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
The water treatment system of example is when being in second working condition, the 4th communicating passage 1004E that flat valve 10E is formed respectively with
Valve body 11E this first opening 1101E and the 7th be open 1107E be connected, the 5th communicating passage 1005E respectively with this
The 9th opening 1109E of the 6th opening 1106E and flat valve 10E of valve body 11E is connected, to allow raw water certainly
First opening 1101E of valve body 11E is flowed into the inner cavity 110E of valve body 11E, is then formed by flat valve 10E
The 4th communicating passage 1004E flow into the 7th opening 1107E, then through the Softening box 31 second lead-through opening 302 stream
Enter the Softening box 31, and to the softener material (or material for water treatment) in the Softening box 31, such as softening resin, back flush
Afterwards, the sewage or waste water obtained is flowed out from first lead-through opening 301 of the Softening box 31, then flows through being somebody's turn to do for valve body 11E
6th opening 1106E flows into the 5th communicating passage 1005E of flat valve 10E, and then the 9th from flat valve 10E opens
Mouth 1109E outflow.In other words, when the water treatment system is in second working condition, the utility model water treatment system
It is controllable that back flush is carried out to softening filter core, such as Softening box 31.Correspondingly, second working condition pair of the water treatment system
It should be in softening filter core (softening plant) backwash working condition of the water treatment system.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
The water treatment system of example is when being in the third working condition, the 6th communicating passage 1006E that flat valve 10E is formed respectively with
Valve body 11E this first opening 1101E and the 6th be open 1106E be connected, the 7th communicating passage 1007E respectively with this
The 9th opening 1109E of the 5th opening 1105E and flat valve 10E of valve body 11E is connected, to allow raw water certainly
First opening 1101E of valve body 11E is flowed into the inner cavity 110E of valve body 11E, then passes through the 6th communicating passage
1006E flows into the 6th opening 1106E, the second connection opening 202 of the purification device 20 is entered back into, to the purification device 20
In material for water treatment or mechanism back flush after, from the purification device 20 this first connection opening 201 outflow, then flow
The 5th opening 1105E through valve body 11E flows into the 7th communicating passage 1007E, then from the 9th of flat valve 10E the
Be open 1109E outflow;Correspondingly, the third working condition of the water treatment system corresponds to the purification device of the water treatment system
Backwash working condition.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
Water treatment system further there is the 4th working condition and the 5th working condition, when the water treatment system is in this
When four working conditions, the moving valve plate 13E and fixed valve plate 12E of flat valve 10E forms one respectively with valve body 11E's
This first opening 1101E and the third be open 1103E be connected eight connectivity channel 1008E, one respectively with valve body 11E
The 6th opening 1106E and the 4th be open the 9th communicating passage 1009E that is connected of 1104E and one respectively with the valve
The tenth communicating passage that the 9th opening 1109E of the 7th opening 1107E and flat valve 10E of body 11E are connected
10010E;When the water treatment system is in five working conditions, the moving valve plate 13E and the fixed valve plate of flat valve 10E
12E forms the 11st company being connected respectively with the first opening 1101E of valve body 11E and the 6th opening 1106E
The 9th opening of circulation passage 10011E and the 1107E and flat valve 10E that is open respectively with the 7th of valve body 11E the
The 12nd communicating passage 10012E that 1109E is connected.
When the water treatment system according to the 6th preferred embodiment of the utility model is in four working conditions, the flat valve
10E formed eight connectivity channel 1008E respectively with valve body 11E this first opening 1101E and the third opening 1103E
It is connected, the 9th communicating passage 1009E is open with the 6th of valve body 11E opening 1106E and the 4th 1104E phase respectively
Connection, the tenth communicating passage 10010E respectively with the 7th of valve body 11E opening 1107E and flat valve 10E this
Nine opening 1109E are connected, so that raw water be allowed to be flowed into being somebody's turn to do for valve body 11E from first opening 1101E of valve body 11E
Then inner cavity 110E flows into third opening 1103E by eight connectivity channel 1008E, then flows into being somebody's turn to do for the ejector 32
Exit wound of bullet 321 mixes entry portal through the ejector 32 after the liquid from the brine tank 33 by 32 jet stream of ejector
322 flow into the 4th opening 1104E of valve body 11E, then flow into the 6th opening by the 9th communicating passage 1009E
1106E, into first lead-through opening 301 of the Softening box 31, after the softening resin in the co-current regeneration Softening box 31, from this
The outflow of second lead-through opening 302, the 7th opening 1107E for then flowing through valve body 11E flow into the tenth communicating passage
10010E, then from the 9th opening 1109E outflow of flat valve 10E.Correspondingly, the 4th work of the water treatment system
State corresponds to softening filter core (softening plant) reproduction operation state of the water treatment system.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
When the water treatment system of example is in five working conditions, the 11st communicating passage 10011E that flat valve 10E is formed divides
It is not connected with the first opening 1101E of valve body 11E and the 6th opening 1106E, the 12nd communicating passage 10012E
It is connected respectively with the 9th opening 1109E of the 7th opening 1107E and flat valve 10E of valve body 11E, to allow
Raw water is flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then passes through the 11st
Communicating passage 10011E flows into the 6th opening 1106E, enters back into first lead-through opening 301 of the Softening box 31, soft to this
After changing material for water treatment or the flushing of mechanism forward direction in case 31, flowed out from second lead-through opening 302 of the Softening box 31, then
The 7th opening 1107E for flowing through valve body 11E flows into the 12nd communicating passage 10012E, then from flat valve 10E's
9th opening 1109E outflow.In other words, when the water treatment system is in five working conditions, the utility model water
Processing system is controllable to softening filter core, as Softening box 31 carries out positive flushing.Correspondingly, the 5th work of the water treatment system
The softening filter core (softening plant) for making state corresponding to the water treatment system just washes working condition.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
Water treatment system further there is the 6th working condition and the 7th working condition, when the water treatment system is in this
When six working conditions, the moving valve plate 13E and fixed valve plate 12E of flat valve 10E forms one respectively with valve body 11E's
The first opening 1101E and the 5th be open the tenth tee joint channel 10013E that is connected of 1105E and one respectively with the valve
The 14th communicating passage that the 9th opening 1109E of the 6th opening 1106E and flat valve 10E of body 11E are connected
10014E;When the water treatment system is in seven working conditions, the moving valve plate 13E and the fixed valve plate of flat valve 10E
12E forms the 15th company being connected respectively with the first opening 1101E of valve body 11E and the 4th opening 1104E
Circulation passage 10015E.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
When the water treatment system of example is in six working conditions, the tenth tee joint channel 10013E that flat valve 10E is formed divides
It is not connected with the first opening 1101E of valve body 11E and the 5th opening 1105E, the 14th communicating passage 10014E
It is connected respectively with the 9th opening 1109E of the 6th opening 1106E and flat valve 10E of valve body 11E, to allow
Raw water is flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then passes through the 13rd
Communicating passage 10013E flows into the 5th opening 1105E, the first connection opening 201 of the purification device 20 is entered back into, to this
After material for water treatment or mechanism forward direction in purification device 20 rinse, from 202 stream of the second connection opening of the purification device 20
Out, the 6th opening 1106E for then flowing through valve body 11E flows into the 14th communicating passage 10014E, then from the plane
The 9th opening 1109E outflow of valve 10E.In other words, when the water treatment system is in six working conditions, this is practical
Novel water treatment system is controllable to carry out positive flushing to purification device 20.Correspondingly, the 6th work of the water treatment system
The purification device that state corresponds to the water treatment system just washes working condition.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, when according to the preferably implementation of the utility model the 6th
When the water treatment system of example is in seven working conditions, the 15th communicating passage 10015E that flat valve 10E is formed divides
It is not connected with the first opening 1101E of valve body 11E and the 4th opening 1104E, to allow raw water from valve body 11E
First opening 1101E be flowed into the inner cavity 110E of valve body 11E, then flowed by the 15th communicating passage 10015E
Enter the 4th opening 1104E, then flow into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.In other words, when this
When water treatment system is in seven working conditions, the utility model water treatment system be can control to 33 moisturizing of brine tank.Accordingly
Ground, the 7th working condition of the water treatment system correspond to the brine tank moisturizing working condition of the water treatment system.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, further, when according to the utility model the 6th
The water treatment system of preferred embodiment is in second working condition, the third working condition, the 4th working condition, the 5th
When working condition, the 6th working condition and seven working conditions, the moving valve plate 13E and the fixed valve plate of flat valve 10E
The 16th communicating passage 10016E that 12E is formed allows raw water to be flowed into the valve from first opening 1101E of valve body 11E
Then the inner cavity 110E of body 11E flows into second opening of valve body 11E by the 16th communicating passage 10016E
1102E, thus second working condition, the third working condition, the 4th working condition, the 5th working condition, this
Six working conditions and the 7th working condition provide raw water to user.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, further, when according to the utility model the 6th
The water treatment system of preferred embodiment be in second working condition, the 4th working condition, the 6th working condition and this
When seven working conditions, the 17th communicating passage of moving valve plate 13E and the fixed valve plate 12E formation of flat valve 10E
10017E allows raw water to be flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then leads to
Cross the 17th communicating passage 10017E flow into valve body 11E the 8th opening 1108E, thus second working condition,
4th working condition, the 6th working condition and the 7th working condition provide raw water to user.Further, when according to
When the water treatment system of the 6th preferred embodiment of the utility model is in the third working condition and five working conditions, this is flat
The tenth eight connectivity channel 10018E that the moving valve plate 13E and fixed valve plate 12E of face valve 10E is formed allows raw water from the valve body
First opening 1101E of 11E is flowed into the inner cavity 110E of valve body 11E, then passes through the tenth eight connectivity channel
10018E flows into the 8th opening 1108E of valve body 11E, thus in the third working condition and the 5th working condition to making
User provides raw water.
Correspondingly, preferable according to the utility model the 6th as shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing
The fluid valve (or flat valve) 10E of the water treatment system of embodiment has first working position, second working position, one
A third working position, the 4th working position, the 5th working position, the 6th working position and the 7th working position,
In when fluid valve (or the flat valve) 10E is in first working position, the spool 1E of fluid valve 10E formed this first connect
Circulation passage 1001E, the second communicating passage 1002E and third connecting channel 1003E, as fluid valve (or the flat valve) 10E
When being in second working position, the spool 1E of fluid valve 10E forms the 4th communicating passage 1004E and is connected to the 5th
Channel 1005E, when fluid valve (or the flat valve) 10E is in the third working position, the spool 1E of fluid valve 10E is formed
6th communicating passage 1006E and the 7th communicating passage 1007E;Preferably, when fluid valve (or the flat valve) 10E is in this
When four working positions, the spool 1E of fluid valve 10E forms eight connectivity channel 1008E, the 9th communicating passage 1009E
With the tenth communicating passage 10010E;When fluid valve (or the flat valve) 10E is in five working positions, fluid valve 10E
Spool 1E form the 11st communicating passage 10011E and the 12nd communicating passage 10012E;It is highly preferred that working as the stream
When body valve (or flat valve) 10E is in six working positions, it is logical that the spool 1E of fluid valve 10E forms the tenth tee joint
Road 10013E and the 14th communicating passage 10014E;It, should when fluid valve (or the flat valve) 10E is in seven working positions
The spool 1E of fluid valve 10E forms the 15th communicating passage 10015E.Further, when preferable according to the utility model the 6th
Fluid valve (or the flat valve) 10E of the water treatment system of embodiment is in second working position, the third working position, the 4th
When working position, the 5th working position, the 6th working position and seven working positions, the spool 1E of fluid valve 10E is formed should
16th communicating passage 10016E.Further, being somebody's turn to do when the water treatment system according to the 6th preferred embodiment of the utility model
Fluid valve (or flat valve) 10E is in second working position, the 4th working position, the 6th working position and the 7th working position
When, the spool 1E of fluid valve 10E forms the 17th communicating passage 10017E, when preferably real according to the utility model the 6th
Fluid valve (or the flat valve) 10E for applying the water treatment system of example is in the third working position and when five working position, the stream
The spool 1E of body valve 10E forms the tenth eight connectivity channel 10018E.
As shown in Figure 161 A to Figure 161 F and Figure 163 A to Figure 163 D of attached drawing, according to the 6th preferred embodiment of the utility model
The flat valve 10E of water treatment system there is a first passage 101E, a second channel 102E, a third channel
103E, a fourth lane 104E, a Five-channel 105E, a 6th channel 106E, a 7th channel 107E, one
A 8th channel 108E, a 9th channel 109E, a tenth channel 1010E, a 11st channel 1011E, one
12 channel 1012E, a tenth triple channel 1013E, a tenth four-way 1014E and a tenth Five-channel 1015E,
In first passage 101E, second channel 102E, third channel 103E, fourth lane 104E, the Five-channel 105E,
6th channel 106E, the 7th channel 107E, the 8th channel 108E, the 12nd channel 1012E, the tenth four-way
1014E and the tenth Five-channel 1015E are respectively arranged on fixed valve plate 12E and respectively from the first fluid control of fixed valve plate 12E
Face 120E processed extends;9th channel 109E, the tenth channel 1010E, the 11st channel 1011E and the tenth triple channel
1013E is respectively arranged on moving valve plate 13E and extends respectively from the second fluid control plane 130E of moving valve plate 13E, wherein should
First passage 101E and second channel 102E is connected with the 5th opening 1105E respectively, third channel 103E and this
Four-way 104E is connected with the 7th opening 1107E respectively, which is connected with second opening 1102E,
6th channel 106E is connected with third opening 1103E, and the 7th channel 107E is connected with the 4th opening 1104E,
8th channel 108E and the tenth four-way 1014E is connected with the 6th opening 1106E respectively, the 12nd channel
1012E is connected with the 8th opening 1108E, and the tenth Five-channel 1015E is connected with the 9th opening 1109, and the 9th is logical
Road 109E is connected with the inner cavity 110E of valve body 11E, and the 11st channel 1011E is connected with the tenth Five-channel 1015E
It is logical.It is appreciated that the second connection opening 202 of the utility model purification device 20 and first conducting of the Softening box 31
The connection of the 6th opening 1106E of opening 301 and valve body 11E can be accomplished in several ways.Such as Figure 152 A institute of attached drawing
Show, valve body 11E the 6th opening 1106E can by one respectively with the purification device 20 this second be connected to be open 202
The connecting pipeline (or triplate line) being connected with first lead-through opening 301 of the Softening box 31 realizes the purification device 20
The second connection opening 202, first lead-through opening 301 of the Softening box 31 and valve body 11E the 6th opening 1106E
Between connection.Optionally, the second connection opening 202 of the purification device 20 and first conducting of the Softening box 31 are opened
The connection of the 6th opening 1106E of mouth 301 and valve body 11E can also be real by being arranged on the communication paths of valve body 11E
Existing, wherein the communication paths, which can be set, second be connected to this of the purification device 20 respectively and is open 202 and valve body 11E's
6th opening 1106E is connected, and respectively with this of first lead-through opening 301 of the Softening box 31 and valve body 11E the
Six opening 1106E are connected.Therefore, the 8th channel 108E (or the tenth four-way 1014E) of valve body 11E, the purification
The second connection opening 202 of device 20 and first lead-through opening 301 of the Softening box 31 pass through the 6th of valve body 11E
The 1106E that is open forms a three-port structure.In addition, in order to ensure the water in the inner cavity 110E of valve body 11E enters the 9th
Channel 109E, the 9th channel 109E, which are set, to be kept by a water inlet 1091E being connected always with exterior space
Always it is connected with the inner cavity 110E of valve body 11E.
It is worth noting that, the first passage 101E and second channel 102E of flat valve 10E are respectively with the 5th
The connection of opening 1105E can be and respectively and by oneself be connected with the 5th opening 1105E, can also pass through one and flow
Body channel is connected;The third channel 103E and fourth lane 104E of flat valve 10E respectively with the 7th opening 1107E
Connection, can be and be connected respectively and by oneself with the 7th opening 1107E, can also be connected by a fluid channel
It is logical.For example, as shown in Figure 147 to Figure 164 G of attached drawing, the first passage 101E and the second channel of flat valve 10E
102E is connected by a first fluid channel 1211E, and the 1105E that is directly open with the 5th is set in second channel 102E
Be connected, to make first passage 101E by the first fluid channel 1211E and second channel 102E, also with this
Five opening 1105E are connected;The third channel 103E and fourth lane 104E of flat valve 10E separately with this
Seven opening 1107E are connected.Optionally, as shown in Figure 165 of attached drawing and Figure 166, first passage 101E be set directly with
5th opening 1105E is connected, and second channel 102E passes through the first fluid channel 1211E and first passage 101E,
Also it is connected with the 5th opening 1105E.Or optionally, the first passage 101E of flat valve 10E and the second channel
102E discriminably and is by oneself connected with the 5th opening 1105E;Or optionally, as shown in Figure 168 of attached drawing, this is flat
The third channel 103E and fourth lane 104E of face valve 10E is connected by a second fluid channel 1212E, the third
Channel 103E, which is set, to be directly connected with the 7th opening 1107E, so that fourth lane 104E be made to pass through the second fluid
Channel 1212E and third channel 103E is also connected with the 7th opening 1107E;Or optionally, such as Figure 167 of attached drawing
Shown, the third channel 103E and fourth lane 104E of flat valve 10E passes through a second fluid channel 1212E phase
Connection, fourth lane 104E, which is set, to be directly connected with the 7th opening 1107E, so that third channel 103E be made to pass through
The second fluid channel 1212E and fourth lane 104E is also connected with the 7th opening 1107E.It is appreciated that into one
Step ground, the first fluid channel 1211E and second fluid channel 1212E may be disposed at fixed valve plate 12E this is first-class
Body control plane 120E also may be disposed at the inside of valve body 11E or fixed valve plate 12E.It is appreciated that flat valve 10E
First passage 101E and second channel 102E respectively with the 5th opening 1105E connection and flat valve 10E should
The third channel 103E and fourth lane 104E connection with the 7th opening 1107E respectively, is also possible to otherwise
Connection.
As shown in Figure 164 A to Figure 164 G of attached drawing, according to this of the water treatment system of the 6th preferred embodiment of the utility model
The moving valve plate 13E of flat valve 10E can be rotated relative to fixed valve plate 12E so that flat valve 10E has first work
Make position, second working position and a third working position, wherein when flat valve 10E is in first working position, the plane
The 9th channel 109E of valve 10E is connected with first passage 101E, the tenth channel 1010E respectively with the third channel
103E is connected with the Five-channel 105E, the tenth triple channel 1013E respectively with the 8th channel 108E and the tenth two-way
Road 1012E is connected;When flat valve 10E is in second working position, the 9th channel 109E of flat valve 10E with should
Fourth lane 104E is connected, the 11st channel 1011E respectively with the 8th channel 108E and the tenth Five-channel 1015E phase
Connection;When flat valve 10E is in the third working position, the 8th channel 108E of flat valve 10E and the 9th channel
109E is connected, the 11st channel 1011E of flat valve 10E respectively with first passage 101E and the tenth Five-channel
1015E is connected, the tenth channel 1010E of flat valve 10E respectively with the 8th channel 108E and the 12nd channel
1012E is connected.
As shown in Figure 164 A to Figure 164 G of attached drawing, according to this of the water treatment system of the 6th preferred embodiment of the utility model
Flat valve 10E further has the 4th working position and the 5th working position, when flat valve 10E is in the 4th work
Position when, the 9th channel 109E of flat valve 10E is connected with the 6th channel 106E, the tenth channel 1010E respectively with
7th channel 107E is connected with the tenth four-way 1014E, the 11st channel 1011E respectively with fourth lane 104E
It is connected with the tenth Five-channel 1015E;When flat valve 10E is in five working positions, the 9th of flat valve 10E the
Channel 109E is connected with the 8th channel 108E, the 11st channel 1011E of flat valve 10E respectively with the third channel
103E is connected with the tenth Five-channel 1015E, the tenth channel 1010E of flat valve 10E respectively with the 8th channel
108E is connected with the 12nd channel 1012E.
As shown in Figure 164 A to Figure 164 G of attached drawing, according to this of the water treatment system of the 6th preferred embodiment of the utility model
Flat valve 10E further has the 6th working position and the 7th working position, when flat valve 10E is in the 6th
When working position, the 9th channel 109E of flat valve 10E is connected with second channel 102E, flat valve 10E this
11 channel 1011E are connected with the 8th channel 108E and the tenth Five-channel 1015E respectively;When flat valve 10E is in
When seven working positions, the 9th channel 109E of flat valve 10E is connected with the 7th channel 107E.
It is appreciated that when flat valve 10E is in first working position, according to the 6th preferred embodiment of the utility model
Water treatment system, which is controlled, is in the purification-softening working position, the 9th channel 109E and the first passage of flat valve 10E
101E is connected, thus formed first communicating passage 1001E, the tenth channel 1010E respectively with third channel 103E and
The Five-channel 105E is connected, to form second communicating passage 1002E, the tenth triple channel 1013E respectively with this
Eight channel 108E are connected with the 12nd channel 1012E, to form third connecting channel 1003E;When the flat valve
When 10E is in second working position, is controlled according to the water treatment system of the 6th preferred embodiment of the utility model and be in the softening
Filter core (softening plant) backwash working position, the 9th channel 109E of flat valve 10E are connected with fourth lane 104E, from
And form the 4th communicating passage 1004E, the 11st channel 1011E respectively with the 8th channel 108E and the tenth Five-channel
1015E is connected, to form the 5th communicating passage 1005E;When flat valve 10E is in the third working position, according to this
The water treatment system of the 6th preferred embodiment of utility model, which is controlled, is in the purification device backwash working position, flat valve 10E
The 8th channel 108E be connected with the 9th channel 109E, to form the 6th communicating passage 1006E, the 11st is logical
Road 1011E is connected with first passage 101E and the tenth Five-channel 1015E respectively, to form the 7th communicating passage
1007E.Further, when flat valve 10E is in four working positions, according to the water of the 6th preferred embodiment of the utility model
Processing system, which is controlled, is in the softening filter core reproduction operation position, and the 9th channel 109E of flat valve 10E is logical with the 6th
Road 106E is connected, to form eight connectivity channel 1008E, the tenth channel 1010E respectively with the 7th channel 107E
It is connected with the tenth four-way 1014E, so that the 9th communicating passage 1009E is formed, the 11st channel 1011E difference
It is connected with fourth lane 104E and the tenth Five-channel 1015E, to form the tenth communicating passage 10010E;When this is flat
When face valve 10E is in five working positions, is controlled according to the water treatment system of the 6th preferred embodiment of the utility model and be in this
Working position is just washed in softening filter core (softening plant), and the 9th channel 109E of flat valve 10E is connected with the 8th channel 108E
It is logical, to form the 11st communicating passage 10011E, the 11st channel 1011E of flat valve 10E respectively with the third
Channel 103E is connected with the tenth Five-channel 1015E, to form the 12nd communicating passage 10012E.Further,
When flat valve 10E is in six working positions, according to the water treatment system of the 6th preferred embodiment of the utility model by control
When the purification device just washes working position, the 9th channel 109E of flat valve 10E is connected with second channel 102E, from
And form the tenth tee joint channel 10013E, the 11st channel 1011E of flat valve 10E respectively with the 8th channel
108E is connected with the tenth Five-channel 1015E, to form the 14th communicating passage 10014E;At flat valve 10E
When seven working positions, is controlled according to the water treatment system of the 6th preferred embodiment of the utility model and be in the brine tank moisturizing
9th channel 109E of working position, flat valve 10E is connected with the 7th channel 107E, to form the 15th connection
Channel 10015E.Preferably, the 11st channel 1011E can be the second fluid for being arranged on moving valve plate 13E
The conducting blind hole or conductance slot of control plane 130E, to be connected to the different channels of fixed valve plate 12E in corresponding working position, for example,
In the second working position connection (or conducting) the 8th channel 108E and the tenth Five-channel 1015E.It is appreciated that working as the plane
When valve 10E is in first working position, the tenth channel 1010E of flat valve 10E respectively with third channel 103E and should
Five-channel 105E is connected, and the moving valve plate 13E of flat valve 10E being somebody's turn to do the Five-channel 105E and valve body 11E
Inner cavity 110E is spaced, and the raw water in the 110E of the inner cavity to prevent valve body 11E enters the Five-channel 105E, the plane
The tenth triple channel 1013E of valve 10E is connected with the 8th channel 108E and the 12nd channel 1012E respectively, and this is flat
The inner cavity 110E of 12nd channel 1012E and valve body 11E is spaced by the moving valve plate 13E of face valve 10E, to prevent this
Raw water in the inner cavity 110E of valve body 11E enters the 12nd channel 1012E.
As shown in Figure 154 A to Figure 164 G of attached drawing, further, when the water according to the 6th preferred embodiment of the utility model
The flat valve 10E of processing system be in second working position, the third working position, the 4th working position, the 5th working position,
When the 6th working position and seven working positions, the inner cavity of the Five-channel 105E and valve body 11E of flat valve 10E
110E is connected, to form the 16th communicating passage 10016E.Correspondingly, when according to the 6th preferred embodiment of the utility model
Water treatment system be in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When making position and seven working positions, raw water is allowed to flow into being somebody's turn to do for valve body 11E from first opening 1101E of valve body 11E
Inner cavity 110E, and further flowed to from the inner cavity 110E of valve body 11E by the Five-channel 105E of fixed valve plate 12E
Second opening 1102E of valve body 11E.
As shown in Figure 154 A to Figure 164 G of attached drawing, further, when the water according to the 6th preferred embodiment of the utility model
The flat valve 10E of processing system is in second working position, the 4th working position, the 6th working position and the 7th working position
When, the inner cavity 110E of the 12nd channel 1012E and valve body 11E of flat valve 10E are connected, thus formed this
17 communicating passage 10017E.Correspondingly, when the water treatment system according to the 6th preferred embodiment of the utility model be in this second
When working position, the 4th working position, the 6th working position and seven working positions, raw water be allowed to from valve body 11E this
One opening 1101E flows into the inner cavity 110E of valve body 11E, and further fixed by this from the inner cavity 110E of valve body 11E
The 12nd channel 1012E of valve block 12E flows to the 8th opening 1108E of valve body 11E.Further, when according to this reality
When being in the third working position and five working positions with the water treatment system of novel 6th preferred embodiment, flat valve 10E
The 9th channel 109E be connected with the 8th channel 108E, the tenth channel 1010E respectively with the 8th channel 108E and
12nd channel 1012E is connected, so that the 9th channel 109E is connected with the 12nd channel 1012E, to be formed
Tenth eight connectivity channel 10018E.Correspondingly, when the water treatment system according to the 6th preferred embodiment of the utility model is in this
When third working position and five working positions, raw water is allowed to be flowed into the valve body from first opening 1101E of valve body 11E
The inner cavity 110E of 11E, then flow into fixed valve plate 12E by the 9th channel 109E of moving valve plate 13E the 8th are led to
Road 108E enters the 12nd channel of fixed valve plate 12E by the tenth channel 1010E water conservancy diversion of moving valve plate 13E
Then 1012E flows to the 8th opening 1108E of valve body 11E.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, correspondingly, when flat valve 10E is in the
When one working position, which is in purification-softening working condition, the first opening 1101E stream of raw water from valve body 11E
Enter the inner cavity 110E to valve body 11E, fixed valve plate 12E is then flowed by the 9th channel 109E of moving valve plate 13E
First passage 101E, then by valve body 11E the 5th opening 1105E enter the purification device 20 this first connect
Open up mouth 201, by the material for water treatment of the purification device 20 or mechanism processing after, water purification from the purification device 20 this second
202 outflow of connection opening, then water purification is divided into two-way, wherein water purification flows into first lead-through opening of the Softening box 31 all the way
301, after the softening resin treatment in the Softening box 31, flowed out from second lead-through opening 302 of the Softening box 31, then
The 7th opening 1107E for flowing through valve body 11E enters the third channel 103E of fixed valve plate 12E, by moving valve plate 13E
The tenth channel 1010E water conservancy diversion enter the Five-channel 105E of fixed valve plate 12E, then by valve body 11E this
Two opening 1102E to user supply sofening treatment after water, another way water purification flow through valve body 11E the 6th opening 1106E into
The 8th channel 108E for entering fixed valve plate 12E, it is fixed into this by the tenth triple channel 1013E water conservancy diversion of moving valve plate 13E
The 12nd channel 1012E of valve block 12E, most the 8th opening 1108E through valve body 11E is flowed out and is supplied to user net afterwards
Water;When flat valve 10E is in the second working position, which is in softening filter core (softening plant) backwash work shape
State, raw water are flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then pass through the dynamic valve
The 9th channel 109E of piece 13E flows into the fourth lane 104E of fixed valve plate 12E, then by valve body 11E this
Seven opening 1107E enter second lead-through opening 302 of the Softening box 31, to the softening resin back flush in the Softening box 31
Afterwards, it is flowed out from first lead-through opening 301 of the Softening box 31, then flows through the 6th opening 1106E of valve body 11E, then
Flow through the 8th channel 108E of fixed valve plate 12E, the 11st channel 1011E and fixed valve plate 12E of moving valve plate 13E
Tenth Five-channel 1015E, then the 9th opening 1109E outflow from flat valve 10E;When flat valve 10E is in third
When working position, which is in purification device backwash working condition, first opening 1101E of the raw water from valve body 11E
It is flowed into the inner cavity 110E of valve body 11E, the fixed valve plate is then flowed by the 9th channel 109E of moving valve plate 13E
The 8th channel 108E of 12E, then by the 6th opening 1106E of valve body 11E enter the purification device 20 this
Two connection opening 202, in the purification device 20 material for water treatment or mechanism back flush after, from the purification device 20 should
First connection opening, 201 outflow then flows through the 5th opening 1105E of valve body 11E, into fixed valve plate 12E this
One channel 101E passes through the tenth Five-channel of the 11st channel 1011E and fixed valve plate 12E of moving valve plate 13E
Nineth opening 1109E outflow of the 1015E from flat valve 10E.Further, when flat valve 10E is in the 4th working position
When, which is in the softening filter core reproduction operation state, and raw water is flowed into from first opening 1101E of valve body 11E
To the inner cavity 110E of valve body 11E, then flow into fixed valve plate 12E's by the 9th channel 109E of moving valve plate 13E
Then 6th channel 106E flows into the exit wound of bullet 321 of the ejector 32 by the third opening 1103E of valve body 11E,
By 32 jet stream of ejector, the entry portal 322 inflow through the ejector 32 should after mixing the liquid from the brine tank 33
The 4th opening 1104E of valve body 11E, subsequently into the 7th channel 107E of fixed valve plate 12E, using moving valve plate 13E
The tenth channel 1010E water conservancy diversion enter fixed valve plate 12E the tenth four-way 1014E, then flow through valve body 11E should
6th opening 1106E enters first lead-through opening 301 of the Softening box 31, setting in the co-current regeneration Softening box 31 as softened
It after rouge, is flowed out from second lead-through opening 302, the 7th opening 1107E for then flowing through valve body 11E enters the fixed valve plate
The fourth lane 104E of 12E, then pass through the 11st channel 1011E and fixed valve plate 12E of moving valve plate 13E the tenth
Five-channel 1015E, from the 9th opening 1109E outflow of flat valve 10E;When flat valve 10E is in five working positions,
The water treatment machine is in the softening filter core (softening plant) and just washes working condition, first opening of raw water from valve body 11E
1101E is flowed into the inner cavity 110E of valve body 11E, and it is fixed then to flow into this by the 9th channel 109E of moving valve plate 13E
Then the 8th channel 108E of valve block 12E enters being somebody's turn to do for the Softening box 31 by the 6th opening 1106E of valve body 11E
First lead-through opening 301, after being rinsed to the softening resin forward direction in the Softening box 31, from second conducting of the Softening box 31
302 outflow of opening then flows through the 7th opening 1107E of valve body 11E, passes through the third channel of fixed valve plate 12E
The tenth Five-channel 1015E of 103E, the 11st channel 1011E of moving valve plate 13E and fixed valve plate 12E, then it is flat from this
The 9th opening 1109E outflow of face valve 10E.Further, when flat valve 10E is in six working positions, at the water
Reason machine is in the purification device and just washes working condition, and raw water is flowed into the valve body from first opening 1101E of valve body 11E
The inner cavity 110E of 11E, then by the 9th channel 109E of moving valve plate 13E flow into fixed valve plate 12E this is second logical
Then road 102E enters the first connection opening of the purification device 20 by the 5th opening 1105E of valve body 11E
201, in the purification device 20 material for water treatment or mechanism forward direction rinse after, from the purification device 20 this second connection open
Mouthfuls 202 flow out, and then flow through the 6th opening 1106E of valve body 11E, into the 8th channel 108E of fixed valve plate 12E,
The tenth Five-channel 1015E of the 11st channel 1011E and fixed valve plate 12E of moving valve plate 13E is passed through from the plane
The 9th opening 1109E outflow of valve 10E;When flat valve 10E is in seven working positions, which is in the saline solution
Case moisturizing working condition, raw water are flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, so
The 7th channel 107E for flowing into fixed valve plate 12E by the 9th channel 109E of moving valve plate 13E afterwards, then flows through the valve
The 4th opening 1104E of body 11E flows into the entry portal 322 of the ejector 32, to 33 moisturizing of brine tank.Therefore, each
Working position, according to the water treatment system of the 6th preferred embodiment of the utility model flat valve 10E inner cavity 110E respectively with
First opening 1101E is connected with the 9th channel 109E, so that the first opening 1101E energy of flat valve 10E
Enough it is connected by inner cavity 110E with the 9th channel 109E, and realizes pending water in the different flow direction controls of each working position
System.In addition, the 9th opening 1109E of the flat valve 10E according to the water treatment system of the 6th preferred embodiment of the utility model
It is open as blowdown, is directly or indirectly connected to the 11st channel 1011E of flat valve 10E, may be formed at the flat valve
The valve body 11E of 10E also may be formed at a drain outlet.
As shown in Figure 164 A to Figure 164 G of attached drawing, it is preferable that when flat valve 10E is in the first working position, this is flat
Second channel 102E, fourth lane 104E and the tenth four-way 1014E of face valve 10E is sealed by moving valve plate 13E respectively
It closes;When flat valve 10E is in the second working position, the first passage 101E and third channel 103E of flat valve 10E
It is closed respectively by moving valve plate 13E;When flat valve 10E is in third working position, the third channel of flat valve 10E
103E, fourth lane 104E and the tenth four-way 1014E are closed by moving valve plate 13E respectively;When flat valve 10E is in
When four working positions, the first passage 101E of flat valve 10E, second channel 102E, third channel 103E and this
Eight channel 108E are closed by moving valve plate 13E respectively;When flat valve 10E is in five working positions, flat valve 10E this
Two channel 102E, fourth lane 104E and the tenth four-way 1014E are closed by moving valve plate 13E respectively;When the flat valve
When 10E is in six working positions, first passage 101E, third channel 103E and the tenth four-way of flat valve 10E
1014E is closed by moving valve plate 13E respectively.
As shown in Figure 164 A to Figure 164 G of attached drawing, it is highly preferred that when flat valve 10E is in the first working position, it should
The 6th channel 106E and the 7th channel 107E of flat valve 10E is closed by moving valve plate 13E, the 11st channel 1011E
It is connected with the tenth Five-channel 1015E;When flat valve 10E is in the second working position, the 6th of flat valve 10E the
Channel 106E and the 7th channel 107E is closed by moving valve plate 13E respectively, the tenth triple channel 1013E and the tenth four-way
Road 1014E is connected, the tenth channel 1010E of flat valve 10E respectively with second channel 102E and the 8th channel
108E is connected;When flat valve 10E is in third working position, the 6th channel 106E and the 7th of flat valve 10E
Channel 107E is closed by moving valve plate 13E respectively, the tenth triple channel 1013E and second channel 102E of flat valve 10E
It is connected;When flat valve 10E is in four working positions, the tenth triple channel 1013E and the 5th of flat valve 10E
Channel 105E is connected;When flat valve 10E is in five working positions, the 6th channel 106E of flat valve 10E and should
7th channel 107E is closed by moving valve plate 13E respectively, the tenth triple channel 1013E of flat valve 10E and the 8th channel
108E is connected;When flat valve 10E is in six working positions, the 6th channel 106E and the 7th of flat valve 10E
Channel 107E is closed by moving valve plate 13E respectively, the tenth channel 1010E and the 8th channel 108E phase of flat valve 10E
Connection, the tenth triple channel 1013E of flat valve 10E are connected with fourth lane 104E;When flat valve 10E is in the
When seven working positions, first passage 101E, third channel 103E and the 8th channel 108E of flat valve 10E is respectively by this
Moving valve plate 13E closing, the tenth channel 1010E of flat valve 10E respectively with fourth lane 104E and the tenth four-way
1014E is connected, and the tenth triple channel 1013E of flat valve 10E is connected with the 6th channel 106E.
It is worth noting that the first passage 101E of flat valve 10E, second channel 102E, the third channel
103E, fourth lane 104E, the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel
108E, the 12nd channel 1012E, the tenth four-way 1014E and the tenth Five-channel 1015E are set to being spaced respectively
The first fluid control plane 120E of fixed valve plate 12E;9th channel 109E, the tenth channel 1010E, the 11st channel
1011E and the tenth triple channel 1013E is set to the second fluid control plane 130E of moving valve plate 13E with being spaced respectively.It changes
Sentence is talked about, first passage 101E, second channel 102E, the third channel 103E, the fourth lane of flat valve 10E
104E, the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel 108E, the 12nd channel
1012E, the tenth four-way 1014E and the tenth Five-channel 1015E are respectively formed one and are arranged on fixed valve plate 12E's
The access portal of first fluid control plane 120E, the 9th channel 109E, the tenth channel 1010E, the 11st channel
1011E and the tenth triple channel 1013E are respectively formed the second fluid control plane 130E for being arranged on moving valve plate 13E
Access portal, when (this is first-class on opposite for the moving valve plate 13E quilt cover (second fluid control plane 130E) of flat valve 10E
Body control plane 120E) setting, and moving valve plate 13E with respect to fixed valve plate 12E rotate when, be arranged on moving valve plate 13E lead to
Road and the channel for being arranged on fixed valve plate 12E be selectively connectable by corresponding access portal it is logical, to be formed accordingly
The flow direction of communicating passage and control fluid (such as water flow).
It is appreciated that the first passage 101E of flat valve 10E, second channel 102E, third channel 103E, is somebody's turn to do
Fourth lane 104E, it the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel 108E, is somebody's turn to do
9th channel 109E, the tenth channel 1010E, the 11st channel 1011E, the 12nd channel 1012E, the tenth triple channel
1013E, the tenth four-way 1014E and the tenth Five-channel 1015E can have it is any can be realized herein be interconnected close
The extension path (or direction) of system;First passage 101E, the second channel 102E, the third channel of flat valve 10E
103E, fourth lane 104E, the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel
108E, the 12nd channel 1012E, the tenth four-way 1014E and the tenth Five-channel 1015E are respectively formed at the fixed valve plate
The access portal and the 9th channel 109E, the tenth channel 1010E, the 11st of the first fluid control plane 120E of 12E
Channel 1011E and the tenth triple channel 1013E is respectively formed at the channel of the second fluid control plane 130E of moving valve plate 13E
Opening can have any shape that can be realized interconnected relationship herein.Determine for example, the 8th channel 108E is formed in this
The access portal of the first fluid control plane 120E of valve block 12E can be arranged to have a regular shape, can also be set
For with an irregular shape.Therefore, the first passage 101E of flat valve 10E, second channel 102E, the third are logical
Road 103E, fourth lane 104E, the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel
108E, the 9th channel 109E, the tenth channel 1010E, the 11st channel 1011E, the 12nd channel 1012E, this
Extension path (or direction) and its channel of ten triple channel 1013E, the tenth four-way 1014E and the tenth Five-channel 1015E
The shape of opening should not become limitations of the present invention.
As shown in Figure 154 A to Figure 164 G of attached drawing, it is preferable that channel herein is closed, and refers to respective channel shape
At the second fluid control of the first fluid control plane 120E and moving valve plate 13E of the fixed valve plate 12E in flat valve 10E
The access portal of face 130E is in the specific works position (or working condition of water treatment system) of flat valve 10E, by the moving valve plate
The entity part of 13E and fixed valve plate 12E covers, and can not be connected by access portal so as to cause between respective channel.Example
Such as, when flat valve 10E is in the first working position, the 6th of the entity part face of moving valve plate 13E flat valve 10E the
Channel 106E and the 7th channel 107E is formed in the access portal of the first fluid control plane 120E of fixed valve plate 12E, thus
Make the 6th channel 106E and the 7th channel 107E of flat valve 10E by moving valve plate 13E closing (or obstruction).Accordingly
Ground is arranged on being connected between the channel of moving valve plate 13E and the channel for being arranged on fixed valve plate 12E herein, refers to
It is to be arranged on the channel of moving valve plate 13E in the specific works position (or working condition of water treatment system) of flat valve 10E
It is formed in the access portal of the second fluid control plane 130E of moving valve plate 13E and is arranged on the channel of fixed valve plate 12E
Form access portal selectively part or just alignment and the formation permission of the first fluid control plane 120E of fixed valve plate 12E
The water-flowing path that water flow passes through.For example, when flat valve 10E is in the first working position, the 9th channel of flat valve 10E
109E aligns with first passage 101E, to both make first communicating passage 1001E that is connected and formed, the tenth is logical
Road 1010E aligns with third channel 103E and the Five-channel 105E respectively, thus both make to be connected and be formed this
Two communicating passage 1002E, the tenth triple channel 1013E are opposite with the 8th channel 108E and the 12nd channel 1012E respectively
Together, to both make the third connecting channel 1003E that is connected and formed.
As shown in Figure 161 A to Figure 161 F and Figure 163 A to Figure 164 G of attached drawing, according to the 6th preferred embodiment of the utility model
The first passage 101E of flat valve 10E of water treatment system, the 8th channel 108E, second channel 102E, this
Four-way 104E, the tenth four-way 1014E, the 7th channel 107E, the 6th channel 106E, the Five-channel 105E and should
Third channel 103E is deasil arranged in fixed valve plate 12E with this sequence;The 11st channel 1011E of flat valve 10E,
Tenth channel 1010E, the 9th channel 109E and the tenth triple channel 1013E are deasil arranged in the dynamic valve with this sequence
Piece 13E.Optionally, the first passage 101E of flat valve 10E, the 8th channel 108E, second channel 102E, this
Four-way 104E, the tenth four-way 1014E, the 7th channel 107E, the 6th channel 106E, the Five-channel 105E and should
Third channel 103E is widdershins arranged in fixed valve plate 12E with this sequence;The 11st channel 1011E of flat valve 10E,
Tenth channel 1010E, the 9th channel 109E and the tenth triple channel 1013E are widdershins arranged in the dynamic valve with this sequence
Piece 13E.
As shown in Figure 161 A to Figure 161 F and Figure 163 A to Figure 164 G of attached drawing, according to the 6th preferred embodiment of the utility model
The fixed valve plate 12E of flat valve 10E of water treatment system have that a first central part 121E, one from first center
The outwardly extending first extension 122E of portion 121E and one are from the outwardly extending first edge portion of first extension 122E
123E, moving valve plate 13E prolong with a second central part 131E, one from second central part 131E outwardly extending second
Extending portion 132E and one from the second extension outwardly extending second edge portion 133E of 132E, wherein fixed valve plate 12E should
First fluid control plane 120E has central part 1200E shown in a figure chain lines, wherein central part 1200E quilt
Set on first central part 121E of fixed valve plate 12E, and except the central part 1200E of first fluid control plane 120E
Part be divided into a first part 1201E, a second part 1202E shown in chain-dotted line, a third clockwise
Part 1203E, a Part IV 1204E, a Part V 1205E, a Part VI 1206E, a Part VII
1207E, a Part VIII 1208E, a Part IX 1209E, a Part X 12010E and one the tenth a part
12011E;The second fluid control plane 130E of the moving valve plate 13E of flat valve 10E has shown in a figure chain lines
Central area 1300E, wherein central area 1300E is set to second central part 131E of moving valve plate 13E, and the second
Part except the central area 1300E of body control plane 130E is divided into a first area shown in chain-dotted line clockwise
1301E, a second area 1302E, a third region 1303E, a fourth region 1304E, the 5th region
1305E, a 6th region 1306E, a District 7 domain 1307E, a Section Eight domain 1308E, the 9th region
1309E, a tenth region 13010E and a 11st region 13011E;Wherein first passage 101E is from the first fluid
The first part 1201E of control plane 120E is extended downwardly;The first fluid control of 8th channel 108E from fixed valve plate 12E
Second part 1202E, the Part III 1203E and Part IV 1204E of face 120E processed is extended downwardly;The second channel
The Part V 1205E of 102E from the first fluid control plane 120E of fixed valve plate 12E are extended downwardly;The fourth lane
The Part VI 1206E of 104E from the first fluid control plane 120E of fixed valve plate 12E are extended downwardly;Tenth four-way
The Part VII 1207E of 1014E from the first fluid control plane 120E of fixed valve plate 12E are extended downwardly;7th channel
The Part VIII 1208E of 107E from first fluid control plane 120E are extended downwardly;6th channel 106E is first-class from this
The Part IX 1209E of body control plane 120E is extended downwardly;The Five-channel 105E is from first fluid control plane 120E's
Part X 12010E and the tenth a part of 12011E are extended downwardly;Third channel 103E is from the first fluid control plane
The tenth a part of 12011E of 120E is extended downwardly;12nd channel 1012E should from first fluid control plane 120E's
Second part 1202E is extended downwardly;The wherein central part of the tenth Five-channel 1015E from first fluid control plane 120E
1200E is extended downwardly;The first area 1301E of 9th channel 109E from second fluid control plane 130E are upwardly extended;
The second area 1302E of tenth triple channel 1013E from second fluid control plane 130E are upwardly extended;11st channel
The central area 1300E of 1011E from second fluid control plane 130E extend to second fluid control plane 130E this
Nine region 1309E;Tenth region 13010E and ten one of the tenth channel 1010E from second fluid control plane 130E
Region 13011E is upwardly extended.
It is appreciated that when the second fluid control plane 130E of moving valve plate 13E be arranged on fixed valve plate 12E this
When one fluid control plane 120E, the second central part 131E face of the second fluid control plane 130E of moving valve plate 13E should
The second fluid of first central part 121E, moving valve plate 13E of the first fluid control plane 120E of fixed valve plate 12E control
First extension of the first fluid control plane 120E of the second extension 132E face fixed valve plate 12E of face 130E
Second edge portion 133E face fixed valve plate 12E of the second fluid control plane 130E of 122E, moving valve plate 13E this
The first edge portion 123E of one fluid control plane 120E.
Optionally, the first fluid control plane 120E and moving valve plate 13E of the fixed valve plate 12E of flat valve 10E
Second fluid control plane 130E is circle, first passage 101E, second channel 102E, third channel 103E, is somebody's turn to do
Fourth lane 104E, the Five-channel 105E, the 6th channel 106E, the 7th channel 107E, the 8th channel 108E, this
12 channel 1012E and the tenth four-way 1014E are radially set to the first fluid control plane of fixed valve plate 12E
120E, and the 9th channel 109E, the tenth channel 1010E and the tenth triple channel 1013E are radially set to the moving valve plate
The second fluid control plane 130E of 13E.
Preferably, the first passage 101E of flat valve 10E, second channel 102E, third channel 103E, this
Four-way 104E, the 6th channel 106E, the 7th channel 107E, the 8th channel 108E and the tenth four-way 1014E points
It is not arranged on first extension 122E, the Five-channel 105E of the first fluid control plane 120E of fixed valve plate 12E
Be arranged on the first edge portion 123E of first fluid control plane 120E, the 12nd channel 1012E be arranged on this
The first edge portion 123E of one fluid control plane 120E.It is highly preferred that the Five-channel 105E is arranged on the first fluid
The first edge portion 123E of control plane 120E simultaneously inwardly prolongs from the first edge portion 123E of first fluid control plane 120E
Extend to first extension 122E of first fluid control plane 120E.
Preferably, the 9th channel 109E and the 11st channel 1011E of flat valve 10EA is respectively set at this
Second extension 132E, the tenth channel 1010E of the second fluid control plane 130E of moving valve plate 13E and the tenth threeway
Road 1013E is respectively set at the second edge portion 133E of the second fluid control plane 130E of moving valve plate 13E and certainly should
Second edge portion 133E extends inwardly to second extension 132E.
Preferably, first fluid control plane 120E of the first passage 101E of flat valve 10E from fixed valve plate 12E
It extends downwardly and outwardly, second channel 102E downwardly and outwardly prolongs from the first fluid control plane 120E of fixed valve plate 12E
It stretches, third channel 103E is extended downwardly and outwardly from the first fluid control plane 120E of fixed valve plate 12E, the four-way
Road 104E extends downwardly and outwardly from the first fluid control plane 120E of fixed valve plate 12E, the Five-channel 105E from this determines valve
The first fluid control plane 120E of piece 12E extends downwardly and outwardly, the 6th channel 106E is from the first fluid of fixed valve plate 12E
Control plane 120E is extended downwardly and outwardly, the first fluid control plane 120E of the 7th channel 107E from fixed valve plate 12E are downward
With extend outwardly, the 8th channel 108E is extended downwardly and outwardly from the first fluid control plane 120E of fixed valve plate 12E, should
12nd channel 1012E extends downwardly and outwardly from the first fluid control plane 120E of fixed valve plate 12E, the tenth four-way
1014E is extended downwardly and outwardly from the first fluid control plane 120E of fixed valve plate 12E, the tenth Five-channel 1015E certainly should
The first fluid control plane 120E of fixed valve plate 12E is extended downwardly and outwardly.
As shown in Figure 147 to Figure 153 of attached drawing, according to the water treatment system of the 6th preferred embodiment of the utility model this be flat
The valve body 11E of face valve 10E has an inner wall 111E, and wherein fixed valve plate 12E is suitable for first fluid control plane 120E court
Shangdi is set to inner cavity 110E and moving valve plate 13E and is set to inner cavity 110E facing downward suitable for second fluid control plane 130E,
Wherein inner cavity 110E is connected with the 9th channel 109E always.It is worth noting that, the fixed valve plate of flat valve 10E
12E can be removably disposed in the inner wall 111E of valve body 11E, can also be with the valve body 11E's of flat valve 10E
Inner wall 111E phase is integrally formed.It will be understood by those skilled in the art that when fixed valve plate 12E is removably disposed in the valve
When in body 11E, fixed valve plate 12E and the valve body are kept by a fixed mechanism between fixed valve plate 12E and valve body 11E
Synchronization between 11E.For example, as shown in Figure 147 to Figure 153 of attached drawing, fixed valve plate 12E have one from fixed valve plate 12E
The outwardly projecting brake component 123E in edge, the inner wall 111E of valve body 11E has a breaker slot 1110E, and wherein this is fixed
The brake component 123E of valve block 12E, which is set, to be meshed with the breaker slot 1110E of the inner wall 111E of valve body 11E,
It is fixed to ensure to be synchronised between fixed valve plate 12E and valve body 11E (or will not relatively rotate) and ensure to be arranged on this
Each channel of valve block 12E is connected with the corresponding opening for being arranged on valve body 11E.It is appreciated that working as fixed valve plate 12E quilt
When being removably disposed in valve body 11E, fixed valve plate 12E is separately manufactured.In other words, at this point, fixed valve plate 12E
It can be made of wear-resistant material, to improve the service life of fixed valve plate 12E (or entire flat valve).Preferably, the fixed valve plate
The smoothed processing of the first fluid control plane 120E of 12E is to reduce its degree of roughness.
As shown in Figure 147 to Figure 153 of attached drawing, according to the water treatment system of the 6th preferred embodiment of the utility model this be flat
Face valve 10E further comprises the driving element 18E upwardly extended from moving valve plate 13E, and wherein driving element 18E is set
Setting can drive the moving valve plate 13E of flat valve 10E to rotate with respect to fixed valve plate 12E.
As shown in Figure 147 to Figure 153 of attached drawing, according to the water treatment system of the 6th preferred embodiment of the utility model this be flat
Face valve 10E further comprises a sealing element 17E, and wherein sealing element 17E is set facing with driving element 18E
Face, wherein sealing element 17E forms a primary sealing area 170E, and driving element 18E forms a secondary sealing area
180E, wherein the primary sealing area 170E of sealing element 17E is arranged on the secondary sealing area of driving element 18E
180E, so that when driving element 18E is rotated relative to sealing element 17E, to drive moving valve plate 13E to determine valve with respect to this
When piece 12E is rotated, the leakage of water is sealed and prevented between driving element 18E and sealing element 17E.In addition, the sealing
Element 17E, which is set, to be able to maintain driving element 18E and is in appropriate location, thus keep moving valve plate 13E be in one it is pre-
If position.
As shown in Figure 147 to Figure 153 of attached drawing, according to the water treatment system of the 6th preferred embodiment of the utility model this be flat
The diameter of the slightly smaller than inner cavity 110E of valve body 11E is set in the diameter of the moving valve plate 13E of face valve 10E, so that this is flat
The 9th channel 109E of face valve 10E can keep being connected with the inner cavity 110E of valve body 11E by water inlet 1091E.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
Water treatment system flat valve 10E control device 16E be set can according to a purification-softening control instruction,
By a transmission mechanism 14E, such as transmission gear drives driving element 18E to rotate, with drive flat valve 10E this is dynamic
Valve block 13E is rotated relative to fixed valve plate 12E, to form the inner cavity with the valve body 11E of flat valve 10E respectively
The first communicating passage 1001E that the opening of 110E and the 5th 1105E is connected, one second opened with this of valve body 11E respectively
Mouthful 1102E and the 7th be open the second communicating passage 1002E that 1107E is connected and one respectively with valve body 11E this
The third connecting channel 1003E that six opening 1106E are connected with the 8th opening 1108E, to allow raw water from valve body 11E's
The 5th opening of inner cavity 110E, first communicating passage 1001E formed by flat valve 10E, valve body 11E
1105E, the purification device 20 the first connection opening 201 flow into the purification device 20, raw water is net by the purification device 20
The water purification obtained after change processing is from 202 outflow of the second connection opening of the purification device 20, and then water purification is divided into two-way, wherein
Water purification flows into the Softening box 31 through first lead-through opening 301 of the Softening box 31 all the way, and is softened after softened processing
Water, softened water are flowed out from second lead-through opening 302 of the Softening box 31, then the 7th opening through valve body 11E
Second communicating passage 1002E of 1107E, flat valve 10E, most afterwards through valve body 11E this second opening 1102E outflow and
Softened water is supplied to user, another way water purification flows through the third of the 6th opening 1106E of valve body 11E, flat valve 10E
Communicating passage 1003E, most the 8th opening 1108E through valve body 11E flows out and supplies water purification to user afterwards;It is soft according to one
Change filter core (softening plant) backwash control instruction, by transmission mechanism 14E, such as transmission gear drives driving element 18E to turn
It is dynamic, to drive the moving valve plate 13E of flat valve 10E to rotate relative to fixed valve plate 12E, put down respectively with this to form one
The 4th communicating passage 1004E and one that the inner cavity 110E of the valve body 11E of face valve 10E is connected with the 7th opening 1107E
A the 5th to be connected respectively with the 9th opening 1109E of the 6th opening 1106E and flat valve 10E of valve body 11E
Communicating passage 1005E, to allow raw water to be flowed into the inner cavity of valve body 11E from first opening 1101E of valve body 11E
Then 110E flows into the 7th opening 1107E by the 4th communicating passage 1004E that flat valve 10E is formed, then soft through this
Second lead-through opening 302 for changing case 31 flows into the Softening box 31, and to softener material (or the water process in the Softening box 31
Material), such as softening resin, after back flush, first lead-through opening 301 of obtained sewage or waste water from the Softening box 31
Outflow, the 6th opening 1106E for then flowing through valve body 11E flow into the 5th communicating passage 1005E of flat valve 10E,
Then from the 9th of flat valve 10E opening 1109E outflow, meanwhile, also formed one respectively with valve body 11E this second
The 16th communicating passage 10016E that opening 1102E is connected with inner cavity 110E, to allow raw water being somebody's turn to do from valve body 11E
First opening 1101E is flowed into the inner cavity 110E of valve body 11E, and then being flowed by the 16th communicating passage 10016E should
Second opening 1102E of valve body 11E, provides raw water to user, also forms one and open respectively with the 8th of valve body 11E the
The 17th communicating passage 10017E that mouthful 1108E is connected with inner cavity 110E, with allow raw water from valve body 11E this first
Opening 1101E is flowed into the inner cavity 110E of valve body 11E, then flows into the valve body by the 17th communicating passage 10017E
The 8th opening 1108E of 11E, provides raw water to user;According to a purification device backwash control instruction, pass through the transmission
Mechanism 14E, such as transmission gear drive driving element 18E to rotate, to drive the moving valve plate 13E of flat valve 10E is opposite should
Fixed valve plate 12E rotation is connected with the opening of the inner cavity 110E of valve body 11E and the 6th 1106E respectively to form one
The 6th communicating passage 1006E and one respectively with the 5th of valve body 11E opening 1105E and flat valve 10E this
The 7th communicating passage 1007E that nine opening 1109E are connected, to allow the first opening 1101E stream of raw water from valve body 11E
Enter the inner cavity 110E to valve body 11E, the 6th opening 1106E is then flowed by the 6th communicating passage 1006E, then
Into the purification device 20 this second connection opening 202, in the purification device 20 material for water treatment or mechanism reversely rush
After washing, from 201 outflow of the first connection opening of the purification device 20, the 5th opening 1105E of valve body 11E is then flowed through
The 7th communicating passage 1007E is flowed into, then from the 9th opening 1109E outflow of flat valve 10E, meanwhile, also form one
A the 16th communicating passage 10016E being connected respectively with second opening 1102E and inner cavity 110E of valve body 11E, with
Allow raw water to be flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then by this
16 communicating passage 10016E flow into second opening 1102E of valve body 11E, provide raw water to user, also form one
The tenth eight connectivity channel 10018E being connected respectively with the 8th opening 1108E and inner cavity 110E of valve body 11E, with
Allow raw water to be flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then by this
Ten eight connectivity channel 10018E flow into the 8th opening 1108E of valve body 11E, provide raw water to user.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
The control device 16E of flat valve 10E of water treatment system be further set and can be regenerated according to softening filter core
Control instruction, by transmission mechanism 14E, such as transmission gear drives driving element 18E to rotate, to drive flat valve 10E
Moving valve plate 13E relative to fixed valve plate 12E rotate, thus formed one respectively with the inner cavity 110E of valve body 11E and this
Eight connectivity channel 1008E that third opening 1103E is connected, one be open respectively with the 6th of the valve body 11E 1106E and
4th the 9th communicating passage 1009E that is connected of opening 1104E and one respectively with the 7th opening of valve body 11E
The tenth communicating passage 10010E that 1107E is connected with the 9th opening 1109E of flat valve 10E, to allow raw water certainly should
First opening 1101E of valve body 11E is flowed into the inner cavity 110E of valve body 11E, then passes through the eight connectivity channel
1008E flows into third opening 1103E, then flows into the exit wound of bullet 321 of the ejector 32, by 32 jet stream of ejector, mixes
The entry portal 322 through the ejector 32 flows into the 4th opening of valve body 11E after liquid of the conjunction from the brine tank 33
1104E, then flows into the 6th opening 1106E by the 9th communicating passage 1009E, this into the Softening box 31 first is led
It opens up mouth 301, after the softening resin in the co-current regeneration Softening box 31, is flowed out from second lead-through opening 302, then flow through this
The 7th opening 1107E of valve body 11E flows into the tenth communicating passage 10010E, and then the 9th from flat valve 10E opens
Mouth 1109E outflow, meanwhile, it also forms one and is connected respectively with second opening 1102E and inner cavity 110E of valve body 11E
The 16th communicating passage 10016E, with allow raw water from valve body 11E this first opening 1101E be flowed into valve body 11E
Inner cavity 110E, then by the 16th communicating passage 10016E flow into valve body 11E this second opening 1102E, to
User provides raw water, also forms one and is open what 1108E and inner cavity 110E was connected with the 8th of valve body 11E the respectively
17th communicating passage 10017E, to allow raw water to be flowed into valve body 11E's from first opening 1101E of valve body 11E
Then inner cavity 110E flows into the 8th opening 1108E of valve body 11E, to making by the 17th communicating passage 10017E
User provides raw water;Control instruction is just washed according to a softening filter core (softening plant), by transmission mechanism 14E, is such as driven
Gear drives driving element 18E to rotate, to drive the moving valve plate 13E of flat valve 10E to rotate relative to fixed valve plate 12E,
It is logical to form the 11st connection that one is connected with the opening of the inner cavity 110E of valve body 11E and the 6th 1106E respectively
The road 10011E and 1109E that is open respectively with the 9th of the 7th opening 1107E and flat valve 10E of valve body 11E the
The 12nd communicating passage 10012E being connected, to allow raw water to be flowed into the valve from first opening 1101E of valve body 11E
Then the inner cavity 110E of body 11E flows into the 6th opening 1106E by the 11st communicating passage 10011E, enters back into this
First lead-through opening 301 of Softening box 31, in the Softening box 31 material for water treatment or mechanism forward direction rinse after, it is soft from this
Second lead-through opening 302 outflow for changing case 31, the 7th opening 1107E for then flowing through valve body 11E flow into the 12nd
Communicating passage 10012E, then from the 9th of flat valve 10E opening 1109E outflow, meanwhile, also formed one respectively with this
The 16th communicating passage 10016E that second opening 1102E of valve body 11E is connected with inner cavity 110E, to allow raw water
It is flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, then passes through the 16th connection
Channel 10016E flow into valve body 11E this second opening 1102E, to user provide raw water, also formed one respectively with this
The tenth eight connectivity channel 10018E that the 8th opening 1108E of valve body 11E is connected with inner cavity 110E, to allow raw water certainly
First opening 1101E of valve body 11E is flowed into the inner cavity 110E of valve body 11E, then logical by the tenth eight connectivity
Road 10018E flows into the 8th opening 1108E of valve body 11E, provides raw water to user.
As shown in Figure 154 A to Figure 160 and Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
The control device 16E of flat valve 10E of water treatment system be further set and can just washed according to a purification device
Control instruction, by transmission mechanism 14E, such as transmission gear drives driving element 18E to rotate, to drive flat valve 10E
Moving valve plate 13E relative to fixed valve plate 12E rotate, thus formed one respectively with the inner cavity 110E of valve body 11E and this
5th the tenth tee joint channel 10013E that is connected of opening 1105E and one respectively with the 6th opening of valve body 11E
The 14th communicating passage 10014E that 1106E is connected with the 9th opening 1109E of flat valve 10E, to allow raw water certainly
First opening 1101E of valve body 11E is flowed into the inner cavity 110E of valve body 11E, then logical by the tenth tee joint
Road 10013E flows into the 5th opening 1105E, enters back into the first connection opening 201 of the purification device 20, fills to the purification
After setting material for water treatment or the flushing of mechanism forward direction in 20, from 202 outflow of the second connection opening of the purification device 20, then
The 6th opening 1106E for flowing through valve body 11E flows into the 14th communicating passage 10014E, then from flat valve 10E's
9th opening 1109E outflow, meanwhile, also formed one respectively with the second opening 1102E and inner cavity of valve body 11E
The 16th communicating passage 10016E that 110E is connected, to allow raw water to be flowed into from first opening 1101E of valve body 11E
Then the inner cavity 110E of valve body 11E flows into second opening of valve body 11E by the 16th communicating passage 10016E
1102E provides raw water to user, also forms the 1108E and inner cavity 110E that is open respectively with the 8th of valve body 11E the
The 17th communicating passage 10017E being connected, to allow raw water to be flowed into the valve from first opening 1101E of valve body 11E
Then the inner cavity 110E of body 11E flows into the 8th opening of valve body 11E by the 17th communicating passage 10017E
1108E provides raw water to user;According to a moisturizing control instruction, pass through transmission mechanism 14E, such as transmission gear, driving
Driving element 18E rotation, to drive the moving valve plate 13E of flat valve 10E to rotate relative to fixed valve plate 12E, to be formed
One the 15th communicating passage being connected respectively with the opening of the inner cavity 110E of valve body 11E and the 4th 1104E
10015E, to allow raw water to be flowed into the inner cavity 110E of valve body 11E from first opening 1101E of valve body 11E, so
The 4th opening 1104E is flowed by the 15th communicating passage 10015E afterwards, then flows into the entry portal of the ejector 32
322, to 33 moisturizing of brine tank, meanwhile, also formed one respectively with the second opening 1102E and inner cavity of valve body 11E
The 16th communicating passage 10016E that 110E is connected, to allow raw water to be flowed into from first opening 1101E of valve body 11E
Then the inner cavity 110E of valve body 11E flows into second opening of valve body 11E by the 16th communicating passage 10016E
1102E provides raw water to user, also forms the 1108E and inner cavity 110E that is open respectively with the 8th of valve body 11E the
The 17th communicating passage 10017E being connected, to allow raw water to be flowed into the valve from first opening 1101E of valve body 11E
Then the inner cavity 110E of body 11E flows into the 8th opening of valve body 11E by the 17th communicating passage 10017E
1108E provides raw water to user.
It is worth noting that, correspondingly, when the water treatment system according to the 6th preferred embodiment of the utility model be in this
Six working conditions, the third working condition, the 4th working condition, the 5th working condition, the 6th working condition and this
When seven working conditions, which forms the first raw water supply water route, and (the 16th communicating passage 10016E is visual
The a part in water route is supplied for first raw water), wherein first raw water supply water route, which is set, allows raw water that can flow through this
Raw water is supplied water route and is provided by second opening 1102E of valve body 11E;When according to the preferably implementation of the utility model the 6th
The water treatment system of example is in second working condition, the third working condition, the 4th working condition, the 5th work shape
When state, the 6th working condition and seven working conditions, which forms second raw water and supplies water route, wherein
Second raw water supply water route, which is set, allows raw water that can flow through raw water supply water route and by the 8th of valve body 11E
Opening 1108E is provided.Preferably, the water treatment system is in second working condition, the 4th working condition, the 6th work
Second raw water supply water route that state and the 7th working condition are formed (the 17th communicating passage 10017E participates in being formed,
Can be considered second raw water supply water route a part), the water treatment system the third working condition and the 5th work shape
(the tenth eight connectivity channel 10018E participates in being formed, and can be considered that second raw water supplies in morphogenetic second raw water supply water route
Answer a part in water route) there is significant difference in structure.
The control instruction is appreciated that, such as purification-softening control instruction, softening plant backwash control instruction, purification device
Control instructions, softening plant are just washing control instruction, purification device is just washed for backwash control instruction, softening filter core Regeneration control instruction etc.
Control instruction, moisturizing control instruction, can be preset in the control module of control device 16E, can also pass through an electronics
Communication network passes through an input interface input received from a controlling terminal, or by user.For example, working as the utility model
Water treatment system is provided having the input interface for flat valve 10E, when such as Trackpad or control button, uses
Person can send above-mentioned control instruction to the control module of control device 16E by touch panel or corresponding control button, with
The control module of control device 16E is set to control the motor rotation of control device 16E, to pass through a transmission mechanism 14E
Driving element 18E is driven to rotate.
As shown in Figure 147 to Figure 148, Figure 162 A to Figure 162 G of attached drawing, according to the 6th preferred embodiment of the utility model
Water treatment system illustratively illustrates purification-sofening treatment of raw water, and wherein the purification device 20 is a purifying filter element,
Wherein the purification device 20 includes that 21, connectors 22 for being arranged on the shell 21 of a shell and one are arranged on
Filter house 23 in the shell 21, wherein the filter house 23 can be the ultrafiltration silk for ultra-filtration filters, net type filter or
Laminated filter, PP cotton or it is other can be to the material for water treatment or filtering material that raw water is filtered.Illustratively, as attached
Shown in Figure 162 A to Figure 162 G of figure, the softening plant 30 of the utility model water treatment system includes a Softening box 31,
In the Softening box 31 include 311, liquid collecting units 312 of a cabinet and a water pliable cell 313, the wherein cabinet 311
With 3110, first lead-through openings 301 of a softening chamber and second lead-through opening 302, the wherein liquid collecting unit 312
Including a central tube 3121, which is suitable for being contained within the softening chamber 3110, wherein the central tube
3121 are suitable for being connected with second lead-through opening 302, and wherein the central tube 3121 has one high end opening 31211 and one
A low side opening 31212, wherein the liquid in cabinet 311, such as water, are suitable for after the water pliable cell 313 processing, from the liquid collecting
The low side opening 31212 of the central tube 3121 of unit 312 flows into the central tube 3121 and the high end opening from the central tube 3121
31211 outflows;Preferably, the water pliable cell 313 in the cabinet 311 includes material for water treatment, such as water softening resin, is had
The active carbon of softening performance or other similar softener materials or combinations thereof.
With reference to shown in Figure 169 A to Figure 172 G of attached drawing, according to the water treatment system of the utility model the 6th preferred embodiment
The optional implementation of one kind of flat valve 10E is elucidated with, and wherein flat valve 10U has a first passage 101E, and one second
Channel 102E, third channel a 103E, a fourth lane 104E, a Five-channel 105U, a 6th channel 106E,
One the 7th channel 107E, a 8th channel 108E, a 9th channel 109E, a tenth channel 1010E, one the tenth
One channel 1011E, a 12nd channel 1012U, a tenth triple channel 1013E, a tenth four-way 1014E and one
Tenth Five-channel 1015E, wherein first passage 101E, second channel 102E, third channel 103E, the fourth lane
104E, the Five-channel 105U, the 6th channel 106E, the 7th channel 107E, the 8th channel 108E, the 12nd channel
1012U, the tenth four-way 1014E and the tenth Five-channel 1015E are respectively arranged on fixed valve plate 12E and respectively from the fixed valve plates
The first fluid control plane 120E of 12E extends;9th channel 109E, the tenth channel 1010E, the 11st channel
1011E and the tenth triple channel 1013E are respectively arranged on moving valve plate 13E and respectively from the second fluid control of moving valve plate 13E
Face 130E processed extends, and first passage 101E and second channel 102E are connected with the 5th opening 1105E respectively, the third
Channel 103E and fourth lane 104E is connected with the 7th opening 1107E respectively, which second opens with this
Mouth 1102E is connected, and the 6th channel 106E is connected with third opening 1103E, and the 7th channel 107E is opened with the 4th
Mouth 1104E is connected, and the 8th channel 108E and the tenth four-way 1014E are connected with the 6th opening 1106E respectively, should
12nd channel 1012U is connected with the 8th opening 1108E, the inner cavity 110E of the 9th channel 109E and valve body 11E
It is connected, the 11st channel 1011E is connected with the tenth Five-channel 1015E, and the tenth Five-channel 1015E is opened with the 9th
Mouth 1109E is connected.
As shown in Figure 169 A to Figure 172 G of attached drawing, when flat valve 10U is in the second working position, flat valve 10U
The Five-channel 105U and the 12nd channel 1012U respectively by moving valve plate 13E close;When flat valve 10U is in the
When three working positions, the Five-channel 105U of flat valve 10U is closed by moving valve plate 13E;When flat valve 10U is in the 4th
When working position, Five-channel 105U and the 12nd channel 1012U of flat valve 10U is sealed by moving valve plate 13E respectively
It closes;When flat valve 10U is in five working positions, the Five-channel 105U of flat valve 10U is closed by moving valve plate 13E;
When flat valve 10U is in six working positions, the Five-channel 105U and the 12nd channel 1012U of flat valve 10U
It is closed respectively by moving valve plate 13E;When flat valve 10U is in seven working positions, the Five-channel of flat valve 10U
105U and the 12nd channel 1012U is closed by moving valve plate 13E respectively.In other words, flat valve 10U and the flat valve
10E the difference is that, when the flat valve 10U of the water treatment system according to the 6th preferred embodiment of the utility model be in this
When two working positions, the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions,
Flat valve 10U does not re-form (or can not be formed) the 16th communicating passage 10016E;When flat valve 10U be in this second
When working position, the 4th working position, the 6th working position and seven working positions, flat valve 10U is not re-formed (or can not shape
At) the 17th communicating passage 10017E.In other words, when flat valve 10U is in second working position, the 4th work
When position, the 6th working position and seven working positions, flat valve 10U does not pass through the second opening 1102E and the 8th opening
1108E provides pending water (or raw water);When flat valve 10U is in the third working position and five working positions, this is flat
Face valve 10U does not pass through second opening 1102E and provides pending water (or raw water).
It is worth noting that, according to present disclosure, it is preferable that the above-mentioned purification-softening water route, the purification device are anti-
Wash water road, the softening plant backwash water route, the softening resin regeneration water route, softening plant the wash water road, the purification device are just
The single fluid valve that wash water road and the moisturizing water route pass through the water treatment system controls to be formed.In addition, at the utility model water
The purification device 20 of reason system can be any tool there are two opening is connected to, such as the first connection opening 201 and second company
Open up water filtering or the purification mechanism of mouth 202, such as fore filter, ultrafilter, active carbon filter.Therefore, herein
In the material for water treatment mentioned or mechanism can be arranged to strainer, active carbon, ultrafiltration silk, PP cotton according to practical application, or even
It is possibly set to RO film.
It is appreciated that herein first, second, third, fourth, the 5th, the 6th, the 7th, the 8th, the 9th, the tenth, the
11, the 12nd, the 13rd, the 14th, the 15th, the 16th, the 17th and/or the 18th is only used for description, and this is practical new
Type, between name to the utility model difference component (or element) and the different components, element and the structure that make the utility model
Generate differentiation.Unless otherwise indicated, otherwise itself do not have order or the how many meaning of number.
It is emphasized that in the case where not departing from the spirit of the present invention, to the utility model water treatment system or
Flat valve carries out modification, deformation and/or the replacement that simple structure changes, and also should be regarded as in the protection scope of the utility model
Within.Such as: change the utility model flat valve first passage, second channel, third channel, fourth lane, Five-channel,
6th channel, the 7th channel, the 8th channel, the 9th channel, the tenth channel, the 11st channel, the 12nd channel, the tenth threeway
Road, the tenth four-way and/or the tenth Five-channel are arranged on the position of first fluid control plane and/or second fluid control plane,
And/or change first passage, second channel, third channel, fourth lane, Five-channel, the 6th channel, the 7th channel, the 8th
Channel, the 9th channel, the tenth channel, the 11st channel, the 12nd channel, the tenth triple channel, the tenth four-way and/or the 15th
The shape etc. for the access portal that channel is formed in first fluid control plane and/or second fluid control plane, these modifications, deformation
And/or replacement is regarded as being within the protection scope of the utility model.
It is pair that those skilled in the art, which would appreciate that the utility model embodiment shown in the drawings and described above only,
The example of the utility model rather than limit.It can thus be seen that the utility model aim can be efficiently accomplished sufficiently.For solving
The embodiment for releasing the utility model function and structure principle is absolutely proved and is described, and the utility model is not by based on this
The limitation of change on a little embodiment basis.Therefore, the utility model includes covering to require model in appended claims
All modifications within enclosing and being spiritual.
Claims (280)
1. a kind of fluid valve characterized by comprising
One valve body;With
One spool, wherein the valve body forms an inner cavity, first opening, second opening, third opening, one
A 4th opening, the 5th opening, the 6th opening, the 7th opening and one the 8th are open, wherein the spool quilt
It is arranged in the inner cavity.
2. fluid valve according to claim 1, which is characterized in that have first working position, second working position
With a third working position, wherein when the fluid valve is in first working position, the spool of the fluid valve forms one point
Not with first opening of the valve body and the first communicating passage of the 5th opening in communication, one respectively with the valve body this
Second communicating passage of two openings and the 7th opening in communication and one respectively with the 6th of valve body opening and the 8th
The third connecting channel of opening in communication;When the fluid valve is in second working position, the spool of the fluid valve forms one
It is a respectively with the valve body this first opening and the 7th opening in communication the 4th communicating passage and one respectively with the valve body
The 6th opening and the 9th opening in communication the 5th communicating passage;When the fluid valve is in the third working position,
The spool of the fluid valve forms one and is connected to respectively with the 6th of first opening of the valve body and the 6th opening in communication the
The 7th communicating passage with the 5th opening and the 9th opening in communication of the valve body respectively of channel and one.
3. fluid valve according to claim 2, which is characterized in that further have the 4th working position and one the 5th
Working position, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body should
The eight connectivity channel of first opening and the third opening in communication, one respectively with the 4th of valve body opening and the 7th
The 9th opening with the 6th opening of the valve body and the fluid valve respectively of 9th communicating passage of opening in communication and one
The tenth communicating passage being connected;When the fluid valve is in five working positions, the spool of the fluid valve forms one point
Not with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve body
12nd communicating passage of the 7th opening and the 9th opening in communication.
4. fluid valve according to claim 3, which is characterized in that further have the 6th working position and one the 7th
Working position, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with the valve body
First opening and the 5th opening in communication the tenth tee joint channel and one respectively with the 6th of valve body opening
With the 14th communicating passage of the 9th opening in communication;When the fluid valve is in seven working positions, which is somebody's turn to do
Spool forms the 15th communicating passage with first opening and the 4th opening in communication of the valve body respectively.
5. fluid valve according to claim 4, which is characterized in that when the fluid valve is in second working position, the third
When working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the valve of the fluid valve
Core is further formed the 16th communicating passage with first opening and second opening in communication of the valve body respectively.
6. fluid valve according to claim 5, which is characterized in that when the fluid valve is in second working position, the third
When working position, the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed one
A the 17th communicating passage with first opening and the 8th opening in communication of the valve body respectively.
7. fluid valve according to claim 6, which is characterized in that when the fluid valve is in five working positions, the stream
The spool of body valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the 18th
Communicating passage.
8. fluid valve according to claim 2, which is characterized in that the fluid valve is flat valve, wherein the fluid valve should
Spool includes a moving valve plate and a fixed valve plate, and wherein the fixed valve plate has a first fluid control plane, moving valve plate tool
Have a second fluid control plane, wherein the moving valve plate and the fixed valve plate are arranged on the inner cavity, wherein the moving valve plate should
Second fluid control plane is arranged on the first fluid control plane of the fixed valve plate, and the moving valve plate is set and can determine with respect to this
Valve block rotation, wherein the fluid valve have a first passage, a second channel, a third channel, a fourth lane,
One Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, one the tenth it is logical
Road, the 11st channel, the 12nd channel and the tenth triple channel, wherein the first passage, the second channel, should
Third channel, the fourth lane, the Five-channel, the 6th channel, the 7th channel, the 8th channel and the 12nd channel
It is respectively arranged on the fixed valve plate and extends respectively from the first fluid control plane of the fixed valve plate;9th channel, the tenth channel,
11st channel and the tenth triple channel are respectively arranged on the moving valve plate and respectively from the second fluid control plane of the moving valve plate
Extend, wherein the first passage and the second channel respectively with the 5th opening in communication, the third channel and the fourth lane
Respectively with the 7th opening in communication, the Five-channel and second opening in communication, the 6th channel and third opening phase
Connection, the 7th channel and the 4th opening in communication, the 8th channel and the 6th opening in communication, the 12nd channel with
8th opening in communication, first opening in communication in the 9th channel and the valve body, the 11st channel is opened with the 9th
Mouth is connected, wherein when the fluid valve is in first working position, the 9th channel and the first passage phase of the fluid valve
Connection, to form first communicating passage, the tenth channel is connected with the third channel and the Five-channel respectively, thus
Second communicating passage is formed, the tenth triple channel is connected with the 8th channel and the 12nd channel respectively, to be formed
The third connecting channel;When the fluid valve is in second working position, the 9th channel of the fluid valve and the fourth lane
It is connected, to form the 4th communicating passage, the 11st channel is connected with the 8th channel, to form the 5th company
Circulation passage;When the fluid valve is in the third working position, the 8th channel of the fluid valve is connected with the 9th channel, from
And the 6th communicating passage is formed, the 11st channel is connected with the first passage, to form the 7th communicating passage.
9. fluid valve according to claim 8, which is characterized in that further have the 4th working position and one the 5th
Working position, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body should
The eight connectivity channel of first opening and the third opening in communication, one respectively with the 4th of valve body opening and the 7th
The 9th opening with the 6th opening of the valve body and the fluid valve respectively of 9th communicating passage of opening in communication and one
The tenth communicating passage being connected;When the fluid valve is in five working positions, the spool of the fluid valve forms one point
Not with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve body
12nd communicating passage of the 7th opening and the 9th opening in communication;Wherein when the fluid valve is in the 4th working position
When, the 9th channel of the fluid valve is connected with the 6th channel, so that the eight connectivity channel is formed, the tenth channel point
It is not connected with the fourth lane and the 7th channel, so that the 9th communicating passage is formed, the 11st channel and the 8th
Channel is connected, to form the tenth communicating passage;When the fluid valve is in five working positions, the fluid valve this
Nine channels are connected with the 8th channel, to form the 11st communicating passage, the 11st channel of the fluid valve with should
Third channel is connected, to form the 12nd communicating passage.
10. fluid valve according to claim 9, which is characterized in that further have the 6th working position and one the
Seven working positions, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with the valve
Body this first opening and the 5th opening in communication the tenth tee joint channel and one opened respectively with the 6th of the valve body the
14th communicating passage of mouth and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool forms the 15th communicating passage with first opening and the 4th opening in communication of the valve body respectively;Wherein
When the fluid valve is in six working positions, the 9th channel of the fluid valve is connected with the second channel, to be formed
11st channel in the tenth tee joint channel, the fluid valve is connected with the 8th channel, to form the 14th company
Circulation passage;When the fluid valve is in seven working positions, the 9th channel of the fluid valve is connected with the 7th channel, from
And form the 15th communicating passage.
11. fluid valve according to claim 10, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position, the 6th working position and seven working positions, which is somebody's turn to do
Spool is further formed the 16th communicating passage with first opening and second opening in communication of the valve body respectively,
When the fluid valve is in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When position and seven working positions, the Five-channel of the fluid valve and first opening in communication of the valve body should to be formed
16th communicating passage.
12. fluid valve according to claim 11, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage, when the fluid valve is in
When second working position, the third working position, the 4th working position, the 6th working position and seven working positions, the fluid valve
The 12nd channel and the valve body first opening in communication, to form the 17th communicating passage.
13. fluid valve according to claim 12, which is characterized in that, should when the fluid valve is in five working positions
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel, when the fluid valve is in five working positions, the 9th channel of the fluid valve is connected with the 8th channel
Logical, the 8th channel is connected with the 12nd channel respectively in the tenth channel, to form the tenth eight connectivity channel.
14. fluid valve according to claim 8, which is characterized in that when the fluid valve is in first working position, the stream
The second channel of body valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position, the stream
First passage and the third channel of body valve are closed by the moving valve plate;When the fluid valve is in the third working position, the stream
The third channel of body valve and the fourth lane are closed by the moving valve plate.
15. fluid valve according to claim 9, which is characterized in that when the fluid valve is in first working position, the stream
The second channel of body valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position, the stream
First passage and the third channel of body valve are closed by the moving valve plate;When the fluid valve is in the third working position, the stream
The third channel of body valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in four working positions, the stream
First passage and the second channel of body valve are closed by the moving valve plate;When the fluid valve is in five working positions, the stream
The second channel of body valve and the fourth lane are closed by the moving valve plate.
16. fluid valve according to claim 10, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
The third channel of fluid valve and the fourth lane are closed by the moving valve plate, should when the fluid valve is in four working positions
First passage and the second channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in five working positions
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in six working positions
First passage and the third channel of fluid valve are closed by the moving valve plate.
17. fluid valve according to claim 14, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, and the tenth of the fluid valve the
Triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth channel is connected with the 8th channel, and the tenth triple channel is connected with the second channel.
18. fluid valve according to claim 15, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, and the tenth of the fluid valve the
Triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth channel is connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid valve is in
When four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve is in the 5th
When working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the tenth threeway of the fluid valve
Road is connected with the 8th channel.
19. fluid valve according to claim 16, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, and the tenth of the fluid valve the
Triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth channel is connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid valve is in
When four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve is in the 5th
When working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the tenth threeway of the fluid valve
Road is connected with the 8th channel;When the fluid valve is in six working positions, the 6th channel of the fluid valve and this
Seven channels are closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel, and the tenth of the fluid valve the
Triple channel is connected with the fourth lane;When the fluid valve is in seven working positions, the first passage of the fluid valve and
The third channel is closed by the moving valve plate respectively, the tenth channel of the fluid valve respectively with the second channel and the fourth lane
It is connected, the tenth triple channel of the fluid valve is connected with the 6th channel.
20. fluid valve according to claim 14, which is characterized in that when the fluid valve be in second working position and this
When three working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
21. fluid valve according to claim 15, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
22. fluid valve according to claim 16, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position, the 6th working position and seven working positions, which is somebody's turn to do
Five-channel is closed by the moving valve plate.
23. fluid valve according to claim 14, which is characterized in that when the fluid valve be in second working position and this
When three working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
24. fluid valve according to claim 15, which is characterized in that when the fluid valve be in second working position, this
When three working positions and four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
25. fluid valve according to claim 16, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is by this
Moving valve plate closing.
26. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, the fourth lane, this
Five-channel, the 6th channel, the 7th channel, the 8th channel and the 12nd channel are set to the fixed valve plate with being spaced respectively
The first fluid control plane;9th channel, the tenth channel, the 11st channel and the tenth triple channel are spaced respectively
Ground is set to the second fluid control plane of the moving valve plate.
27. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve, are somebody's turn to do at the second channel
Fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are deasil arranged in this with this sequence
Fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve are with this sequence up time
Needle it is arranged in the moving valve plate.
28. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the first fluid control plane of the fixed valve plate of the fluid valve and the second fluid of the moving valve plate
Control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, the Five-channel, should
6th channel, the 7th channel, the 8th channel and the 12nd channel are radially set to the first fluid of the fixed valve plate
Control plane, the tenth triple channel, the 9th channel and the tenth channel are radially set to the second fluid control of the moving valve plate
Face processed.
29. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the fixed valve plate is suitable for the first fluid and controls upward set on the inner cavity, which is suitable for should
Second fluid control is set to the inner cavity face-down, and the moving valve plate is arranged on the top of the fixed valve plate, wherein the inner cavity quilt
Setting is connected with first opening and the 9th channel respectively.
30. according to fluid valve described in claim 8,9,10,11,12,13,14,15 or 16, which is characterized in that the fixed valve plate
It is set to the inner cavity upward suitable for first fluid control, which is set to face-down suitable for second fluid control should
Inner cavity, and the moving valve plate is arranged on the top of the fixed valve plate, wherein the inner cavity be set respectively with first opening and this
Nine channels are connected.
31. fluid valve described in 7,18,19,20,21,22,23,24 or 25 according to claim 1, which is characterized in that this determines valve
Piece is suitable for the first fluid and controls upward set on the inner cavity, which is suitable for second fluid control and is set to face-down
The inner cavity, and the moving valve plate is arranged on the top of the fixed valve plate, wherein the inner cavity be set respectively with first opening and should
9th channel is connected.
32. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the fixed valve plate of the fluid valve have first central part, one it is outside from first central part
From the outwardly extending first edge portion of the first extension, which has one second by the first extension extended and one
Central part, one from outwardly extending second extension of second central part and one from second extension outwardly extending
Two edge parts, wherein the first fluid control plane of the fixed valve plate has a central part, and wherein the central part is located at
First central part of the fixed valve plate, and the part except the central part of the first fluid control plane is divided into clockwise
One first part, a second part, a Part III, a Part IV, a Part V, one the 6th
Point, a Part VII, a Part VIII, a Part IX, a Part X and one the tenth a part;The fluid
The second fluid control plane of the moving valve plate of valve has a central area, and wherein the central area is set to being somebody's turn to do for the moving valve plate
Second central part, and the part except the central area of the second fluid control plane is divided into firstth area clockwise
Domain, a second area, a third region, a fourth region, the 5th region, the 6th region, one the 7th
Region, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein the first passage from
The first part of the first fluid control plane extends downwardly;8th channel is from the first fluid control plane of the fixed valve plate
The second part, the Part III, the Part IV and the Part V extend downwardly;12nd channel is from the first fluid
The second part of control plane extends downwardly;The Part VI of the second channel from the first fluid control plane of the fixed valve plate
It extends downwardly;The Part VII of the fourth lane from the first fluid control plane of the fixed valve plate extends downwardly;7th is logical
Road is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the 9th of the first fluid control plane
Part extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;The Five-channel certainly should
The tenth a part of first fluid control plane extends downwardly;9th channel is from the first area of the second fluid control plane
It upwardly extends;Tenth triple channel is upwardly extended from the second area of the second fluid control plane;Certainly should in 11st channel
The Section Eight domain of second fluid control plane upwardly extends;Tenth channel from the tenth region of the second fluid control plane and
11st region upwardly extends.
33. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the fluid valve further comprises a diversion member, and wherein it is logical to form a blowdown for the diversion member
Road, wherein the diversion member be set from the moving valve plate extend and the diversion member the drain outlet respectively with the fluid valve
11st channel and the 9th opening in communication.
34. according to claim 8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24 or 25
Fluid valve, which is characterized in that the diameter of the inner cavity less than the valve body is set in the diameter of the moving valve plate of the fluid valve, thus
So that the 9th channel of the fluid valve can keep first opening in communication with the valve body by a water inlet.
35. fluid valve according to claim 32, which is characterized in that the first passage of the fluid valve, the second channel,
The third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at the fixed valve plate
First extension of the first fluid control plane, the Five-channel are arranged on the first edge of the first fluid control plane
Portion, the 12nd channel are arranged on the first edge portion of the first fluid control plane;9th channel of the fluid valve and
11st channel is respectively set at second extension of the second fluid control plane of the moving valve plate, the tenth channel and
Tenth triple channel is arranged on the second edge portion of the second fluid control plane of the moving valve plate and from the second edge portion
Extend inwardly to second extension.
36. fluid valve according to claim 1, which is characterized in that the valve body of the fluid valve is further formed one
Nine openings, which has first working position, second working position and a third working position, wherein when the fluid
When valve is in first working position, the spool of the fluid valve formed one respectively with first opening and the 5th of the valve body
First communicating passage of opening in communication, one respectively with the valve body this second opening and the 7th opening in communication second
The third connecting channel with the 6th opening and the 8th opening in communication of the valve body respectively of communicating passage and one;When the stream
When body valve is in second working position, the spool of the fluid valve formed one respectively with first opening of the valve body and this
4th communicating passage of seven opening in communication and one respectively with the 6th opening of the valve body and the 9th opening in communication
5th communicating passage;When the fluid valve is in the third working position, the spool of the fluid valve formed one respectively with the valve
First opening of body and the 6th communicating passage of the 6th opening in communication and one respectively with the 5th of valve body opening
With the 7th communicating passage of the 9th opening in communication.
37. fluid valve according to claim 36, which is characterized in that further have the 4th working position and one the
Five working positions, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
The eight connectivity channel of first opening and the third opening in communication, one respectively with the 4th of valve body opening and this
9th communicating passage of seven opening in communication and one open with the 9th of the 6th opening of the valve body and the fluid valve the respectively
The tenth communicating passage that mouth is connected;When the fluid valve is in five working positions, the spool of the fluid valve forms one
Respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve body
The 7th opening and the 9th opening in communication the 12nd communicating passage.
38. the fluid valve according to claim 37, which is characterized in that further have the 6th working position and one the
Seven working positions, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with the valve
Body this first opening and the 5th opening in communication the tenth tee joint channel and one opened respectively with the 6th of the valve body the
14th communicating passage of mouth and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool forms the 15th communicating passage with first opening and the 4th opening in communication of the valve body respectively.
39. the fluid valve according to claim 38, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position, the 6th working position and seven working positions, which is somebody's turn to do
Spool is further formed the 16th communicating passage with first opening and second opening in communication of the valve body respectively.
40. fluid valve according to claim 39, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage.
41. fluid valve according to claim 40, which is characterized in that, should when the fluid valve is in five working positions
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel.
42. fluid valve according to claim 36, which is characterized in that the fluid valve is flat valve, wherein the fluid valve
The spool includes a moving valve plate and a fixed valve plate, and wherein the fixed valve plate has a first fluid control plane, the moving valve plate
With a second fluid control plane, wherein the moving valve plate and the fixed valve plate are arranged on the inner cavity, wherein the moving valve plate
The second fluid control plane is arranged on the first fluid control plane of the fixed valve plate, and the moving valve plate is set and opposite can be somebody's turn to do
Fixed valve plate rotation, wherein the fluid valve has a first passage, a second channel, a third channel, a four-way
Road, a Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, one the tenth
Channel, the 11st channel, the 12nd channel, the tenth triple channel and the tenth four-way, wherein this first
Channel, the second channel, the third channel, the fourth lane, the Five-channel, the 6th channel, the 7th channel, the 8th
Channel, the 12nd channel and the tenth four-way are respectively arranged on the fixed valve plate and respectively from the first fluid controls of the fixed valve plate
Face processed extends;9th channel, the tenth channel, the 11st channel and the tenth triple channel are respectively arranged on the moving valve plate and divide
Do not extend from the second fluid control plane of the moving valve plate, wherein the first passage and the second channel are open with the 5th respectively
Be connected, the third channel and the fourth lane respectively with the 7th opening in communication, the Five-channel and the second opening phase
Connection, the 6th channel and the third opening in communication, the 7th channel and the 4th opening in communication, the 8th channel with should
First opening of 6th opening in communication, the 12nd channel and the 8th opening in communication, the 9th channel and the valve body
It is connected, the 11st channel is connected with the tenth four-way, the tenth four-way and the 9th opening in communication, wherein when
When the fluid valve is in first working position, the 9th channel of the fluid valve is connected with the first passage, should to be formed
First communicating passage, the tenth channel are connected with the third channel and the Five-channel respectively, to form second connection
Channel, the tenth triple channel are connected with the 8th channel and the 12nd channel respectively, to form the third connecting channel;
When the fluid valve is in second working position, the 9th channel of the fluid valve is connected with the fourth lane, to be formed
4th communicating passage, the 11st channel are connected with the 8th channel and the tenth four-way respectively, thus formed this
Five communicating passages;When the fluid valve is in the third working position, the 8th channel of the fluid valve is connected with the 9th channel
Logical, to form the 6th communicating passage, the 11st channel is connected to the first passage phase and the tenth four-way respectively, from
And form the 7th communicating passage.
43. fluid valve according to claim 42, which is characterized in that further have the 4th working position and one the
Five working positions, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
The eight connectivity channel of first opening and the third opening in communication, one respectively with the 4th of valve body opening and this
9th communicating passage of seven opening in communication and one open with the 9th of the 6th opening of the valve body and the fluid valve the respectively
The tenth communicating passage that mouth is connected;When the fluid valve is in five working positions, the spool of the fluid valve forms one
Respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve body
The 7th opening and the 9th opening in communication the 12nd communicating passage;Wherein when the fluid valve is in the 4th working position
When, the 9th channel of the fluid valve is connected with the 6th channel, so that the eight connectivity channel is formed, the tenth channel point
Be not connected with the fourth lane and the 7th channel, to form the 9th communicating passage, the 11st channel respectively with this
8th channel is connected with the tenth four-way, to form the tenth communicating passage;When the fluid valve is in the 5th work
When position, the 9th channel of the fluid valve is connected with the 8th channel, so that the 11st communicating passage is formed, the fluid valve
The 11st channel be connected respectively with the third channel and the tenth four-way, to form the 12nd communicating passage.
44. fluid valve according to claim 43, which is characterized in that further have the 6th working position and one the
Seven working positions, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with the valve
Body this first opening and the 5th opening in communication the tenth tee joint channel and one opened respectively with the 6th of the valve body the
14th communicating passage of mouth and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool forms the 15th communicating passage with first opening and the 4th opening in communication of the valve body respectively;Wherein
When the fluid valve is in six working positions, the 9th channel of the fluid valve is connected with the second channel, to be formed
11st channel in the tenth tee joint channel, the fluid valve is connected with the 8th channel and the tenth four-way respectively,
To form the 14th communicating passage;When the fluid valve is in seven working positions, the 9th channel of the fluid valve with
7th channel is connected, to form the 15th communicating passage.
45. fluid valve according to claim 44, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position, the 6th working position and seven working positions, which is somebody's turn to do
Spool is further formed the 16th communicating passage with first opening and second opening in communication of the valve body respectively,
When the fluid valve is in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When position and seven working positions, the Five-channel of the fluid valve and first opening in communication of the valve body should to be formed
16th communicating passage.
46. fluid valve according to claim 45, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage, when the fluid valve is in
When second working position, the third working position, the 4th working position, the 6th working position and seven working positions, the fluid valve
The 12nd channel and the valve body first opening in communication, to form the 17th communicating passage.
47. fluid valve according to claim 46, which is characterized in that, should when the fluid valve is in five working positions
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel, when the fluid valve is in five working positions, the 9th channel of the fluid valve is connected with the 8th channel
Logical, the 8th channel is connected with the 12nd channel respectively in the tenth channel, to form the tenth eight connectivity channel.
48. fluid valve according to claim 42, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
The third channel of fluid valve and the fourth lane are closed by the moving valve plate.
49. fluid valve according to claim 43, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
The third channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in four working positions
First passage and the second channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in five working positions
The second channel of fluid valve and the fourth lane are closed by the moving valve plate.
50. fluid valve according to claim 44, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
The third channel of fluid valve and the fourth lane are closed by the moving valve plate, should when the fluid valve is in four working positions
First passage and the second channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in five working positions
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in six working positions
First passage and the third channel of fluid valve are closed by the moving valve plate.
51. fluid valve according to claim 48, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid valve
Tenth triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel.
52. fluid valve according to claim 49, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid valve
Tenth triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid
When valve is in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve is in
When five working positions, the 6th channel of the fluid valve and the 7th channel are closed by the moving valve plate, the fluid valve this
Ten triple channels are connected with the 8th channel.
53. fluid valve according to claim 50, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid valve
Tenth triple channel is connected with the 7th channel, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid
When valve is in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve is in
When five working positions, the 6th channel of the fluid valve and the 7th channel are closed by the moving valve plate, the fluid valve this
Ten triple channels are connected with the 8th channel;When the fluid valve is in six working positions, the 6th channel of the fluid valve
It is closed with the 7th channel by the moving valve plate, the tenth channel of the fluid valve is connected with the 8th channel, the fluid valve
Tenth triple channel is connected with the fourth lane;When the fluid valve is in seven working positions, the fluid valve this first
Channel and the third channel are closed by the moving valve plate respectively, the tenth channel of the fluid valve respectively with the second channel and this
Four-way is connected, and the tenth triple channel of the fluid valve is connected with the 6th channel.
54. fluid valve according to claim 48, which is characterized in that when the fluid valve be in second working position and this
When three working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
55. fluid valve according to claim 49, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
56. fluid valve according to claim 50, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position, the 6th working position and seven working positions, which is somebody's turn to do
Five-channel is closed by the moving valve plate.
57. fluid valve according to claim 48, which is characterized in that when the fluid valve be in second working position and this
When three working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
58. fluid valve according to claim 49, which is characterized in that when the fluid valve be in second working position, this
When three working positions and four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
59. fluid valve according to claim 50, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is by this
Moving valve plate closing.
60. according to claim 42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,59 or 59
Fluid valve, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, the fourth lane, should
Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel and the tenth four-way are separated by respectively
It is set to the first fluid control plane of the fixed valve plate with opening;9th channel, the tenth channel, the 11st channel and the tenth
Triple channel is set to the second fluid control plane of the moving valve plate with being spaced respectively.
61. according to claim 42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,59 or 59
Fluid valve, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve, the second channel,
The fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are deasil arranged in this sequence
The fixed valve plate;11st channel of the fluid valve, the tenth channel, the 9th channel and the tenth triple channel are sequentially suitable with this
Hour hands it is arranged in the moving valve plate.
62. according to claim 42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,59 or 59
Fluid valve, which is characterized in that the fixed valve plate is suitable for the first fluid and controls to be set to the inner cavity upward, which is suitable for
Second fluid control is set to the inner cavity face-down, and the moving valve plate is arranged on the top of the fixed valve plate, wherein the inner cavity
It is set and is connected respectively with first opening and the 9th channel.
63. according to claim 42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,59 or 59
Fluid valve, which is characterized in that the second of the first fluid control plane of the fixed valve plate of the fluid valve and the moving valve plate
Body control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, the Five-channel,
Radially this set on the fixed valve plate is first-class for 6th channel, the 7th channel, the 8th channel and the 12nd channel
Body control plane, the tenth triple channel, the 9th channel and the tenth channel are radially set to the second fluid of the moving valve plate
Control plane.
64. according to claim 42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,59 or 59
Fluid valve, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from first central part to
From the outwardly extending first edge portion of the first extension, which has one the by first extension of outer extension and one
Two central parts, one it is outwardly extending from outwardly extending second extension of second central part and one from second extension
Second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, and wherein the central part is set
In first central part of the fixed valve plate, and the part except the central part of the first fluid control plane is by equal part clockwise
For a first part, a second part, a Part III, a Part IV, a Part V, one the 6th
Point, a Part VII, a Part VIII, a Part IX, a Part X and one the tenth a part;The fluid
The second fluid control plane of the moving valve plate of valve has a central area, and wherein the central area is set to being somebody's turn to do for the moving valve plate
Second central part, and the part except the central area of the second fluid control plane is divided into firstth area clockwise
Domain, a second area, a third region, a fourth region, the 5th region, the 6th region, one the 7th
Region, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein the first passage from
The first part of the first fluid control plane extends downwardly;8th channel is from the first fluid control plane of the fixed valve plate
The second part, the Part III, the Part IV and the Part V extend downwardly;12nd channel is from the first fluid
The second part of control plane extends downwardly;The Part VI of the second channel from the first fluid control plane of the fixed valve plate
It extends downwardly;The Part VII of the fourth lane from the first fluid control plane of the fixed valve plate extends downwardly;7th is logical
Road is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the 9th of the first fluid control plane
Part extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;The Five-channel certainly should
The tenth a part of first fluid control plane extends downwardly;The central part of tenth four-way from the first fluid control plane
Divide and extends downwardly;9th channel is upwardly extended from the first area of the second fluid control plane;Tenth triple channel certainly should
The second area of second fluid control plane upwardly extends;11st channel is from the central area of the second fluid control plane
Extend to the Section Eight domain of the second fluid control plane;Tenth channel from the tenth region of the second fluid control plane and
11st region upwardly extends.
65. fluid valve according to claim 64, which is characterized in that the first passage of the fluid valve, the second channel,
The third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at the fixed valve plate
First extension of the first fluid control plane, the Five-channel are arranged on the first edge of the first fluid control plane
Portion, the 12nd channel are arranged on the first edge portion of the first fluid control plane;9th channel quilt of the fluid valve
Second extension of the second fluid control plane of the moving valve plate is set, and the tenth channel and the tenth triple channel are set
The second fluid control plane of the moving valve plate the second edge portion and extend inwardly to this from the second edge portion and second prolong
Extending portion.
66. fluid valve according to claim 5, which is characterized in that when the fluid valve is in second working position, the 4th
When working position, the 5th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed one
A the 17th communicating passage with first opening and the 8th opening in communication of the valve body respectively.
67. fluid valve according to claim 66, which is characterized in that, should when the fluid valve is in the third working position
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel.
68. fluid valve according to claim 11, which is characterized in that when the fluid valve be in second working position, this
When four working positions, the 5th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage, when the fluid valve is in
When second working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The 12nd channel and the valve body first opening in communication, to form the 17th communicating passage.
69. fluid valve according to claim 68, which is characterized in that, should when the fluid valve is in the third working position
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel, when the fluid valve is in the third working position, the 9th channel of the fluid valve is connected with the 8th channel
Logical, the 8th channel is connected with the 12nd channel respectively in the tenth channel, to form the tenth eight connectivity channel.
70. fluid valve according to claim 8, which is characterized in that when the fluid valve is in first working position, the stream
The second channel of body valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position, the stream
First passage and the third channel of body valve are closed by the moving valve plate;When the fluid valve is in the third working position, the stream
Second channel and the third channel of body valve are closed by the moving valve plate.
71. fluid valve according to claim 9, which is characterized in that when the fluid valve is in first working position, the stream
The second channel of body valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position, the stream
First passage and the third channel of body valve are closed by the moving valve plate;When the fluid valve is in the third working position, the stream
Second channel and the third channel of body valve are closed by the moving valve plate;When the fluid valve is in four working positions, the stream
The first passage, the second channel and third channel of body valve are closed by the moving valve plate;When fluid valve is in the 5th work
When position, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
72. fluid valve according to claim 10, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
Second channel and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in four working positions
The first passage, the second channel and third channel of fluid valve are closed by the moving valve plate;When fluid valve is in the 5th work
When making position, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 6th work
When making position, the first passage, the third channel and fourth lane of the fluid valve are closed by the moving valve plate;At the fluid valve
When seven working positions, the 6th channel of the fluid valve is closed by the moving valve plate.
73. fluid valve according to claim 70, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel with should
6th channel is connected, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When the stream
When body valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the fourth lane.
74. fluid valve according to claim 71, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel with should
6th channel is connected, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When the stream
When body valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the fourth lane;When the fluid valve is in four working positions, which is somebody's turn to do
Tenth triple channel is connected with the Five-channel;When the fluid valve is in five working positions, the 6th channel of fluid valve
It is closed with the 7th channel by the moving valve plate, the tenth triple channel of the fluid valve is connected with the 8th channel, the fluid valve
The tenth channel be connected respectively with the 8th channel and the first passage.
75. the fluid valve according to claim 72, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When this
When fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel with should
6th channel is connected, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When the stream
When body valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the fourth lane;When the fluid valve is in four working positions, which is somebody's turn to do
Tenth triple channel is connected with the Five-channel;When the fluid valve is in five working positions, the 6th channel of fluid valve
It is closed with the 7th channel by the moving valve plate, the tenth triple channel of the fluid valve is connected with the 8th channel, the fluid valve
The tenth channel be connected respectively with the 8th channel and the first passage;When the fluid valve is in six working positions,
6th channel of the fluid valve is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel, should
Tenth triple channel of fluid valve is connected with the 7th channel;When the fluid valve is in seven working positions, the fluid valve
The first passage and the 8th channel closed by the moving valve plate, the tenth channel of the fluid valve respectively with the second channel and
The fourth lane is connected, and the tenth triple channel of the fluid valve is connected with the third channel and the Five-channel respectively.
76. fluid valve according to claim 70, which is characterized in that when the fluid valve be in second working position and this
When three working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
77. fluid valve according to claim 71, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
78. the fluid valve according to claim 72, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position and six working positions, the Five-channel of the fluid valve is moved by this
Valve block closing.
79. fluid valve according to claim 70, which is characterized in that, should when the fluid valve is in second working position
It is closed by the moving valve plate in 12nd channel of fluid valve.
80. fluid valve according to claim 71, which is characterized in that when the fluid valve be in second working position, this
When four working positions and five working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
81. the fluid valve according to claim 72, which is characterized in that when the fluid valve be in second working position, this
When four working positions, the 5th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is by this
Moving valve plate closing.
82. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, the fourth lane, this
Five-channel, the 6th channel, the 7th channel, the 8th channel and the 12nd channel are set to the fixed valve plate with being spaced respectively
The first fluid control plane;9th channel, the tenth channel, the 11st channel and the tenth triple channel are spaced respectively
Ground is set to the second fluid control plane of the moving valve plate.
83. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve, are somebody's turn to do at the second channel
Fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are deasil arranged in this with this sequence
Fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve are with this sequence up time
Needle it is arranged in the moving valve plate.
84. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the first fluid control plane of the fixed valve plate of the fluid valve and the second fluid of the moving valve plate
Control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, the Five-channel, should
6th channel, the 7th channel, the 8th channel and the 12nd channel are radially set to the first fluid of the fixed valve plate
Control plane, the tenth triple channel, the 9th channel and the tenth channel are radially set to the second fluid control of the moving valve plate
Face processed.
85. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the fixed valve plate is suitable for the first fluid and controls upward set on the inner cavity, which is suitable for should
Second fluid control is set to the inner cavity face-down, and the moving valve plate is arranged on the top of the fixed valve plate, wherein the inner cavity quilt
Setting is connected with first opening and the 9th channel respectively.
86. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the softening plant further comprises an ejector and a brine tank, and wherein the ejector has
One is suitable for being suitable for being connected with the 4th opening of the valve body with the exit wound of bullet of the third opening in communication of the valve body and one
Logical entry portal, wherein the brine tank is suitable for being connected with the ejector.
87. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the fixed valve plate of the fluid valve have first central part, one it is outside from first central part
From the outwardly extending first edge portion of the first extension, which has one second by the first extension extended and one
Central part, one from outwardly extending second extension of second central part and one from second extension outwardly extending
Two edge parts, wherein the first fluid control plane of the fixed valve plate has a central part, and wherein the central part is located at
First central part of the fixed valve plate, and the part except the central part of the first fluid control plane is divided into clockwise
One first part, a second part, a Part III, a Part IV, a Part V, one the 6th
Point, a Part VII, a Part VIII, a Part IX, a Part X and one the tenth a part;The fluid
The second fluid control plane of the moving valve plate of valve has a central area, and wherein the central area is set to being somebody's turn to do for the moving valve plate
Second central part, and the part except the central area of the second fluid control plane is divided into firstth area clockwise
Domain, a second area, a third region, a fourth region, the 5th region, the 6th region, one the 7th
Region, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein the first passage from
The first part of the first fluid control plane extends downwardly;8th channel is from the first fluid control plane of the fixed valve plate
The second part, the Part III, the Part IV and the Part V extend downwardly;12nd channel is from the first fluid
The Part III of control plane extends downwardly;The Part VI of the second channel from the first fluid control plane of the fixed valve plate
It extends downwardly;The Part VII of the fourth lane from the first fluid control plane of the fixed valve plate extends downwardly;7th is logical
Road is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the 9th of the first fluid control plane
Part extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;The Five-channel certainly should
The Part X of first fluid control plane and the tenth a part extend downwardly;9th channel is from the second fluid control plane
The first area upwardly extend;Tenth triple channel is upwardly extended from the third region of the second fluid control plane;This
11 channels are upwardly extended from the Section Eight domain of the second fluid control plane;Tenth channel is from the second fluid control plane
Tenth region and the 11st region upwardly extend.
88. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the fluid valve further comprises a diversion member, and wherein it is logical to form a blowdown for the diversion member
Road, wherein the diversion member be set from the moving valve plate extend and the diversion member the drain outlet respectively with the fluid valve
11st channel and the 9th opening in communication.
89. according to claim 8,9,10,11,68,69,70,71,72,73,74,75,76,77,78,79,80 or 81
Fluid valve, which is characterized in that the diameter of the inner cavity less than the valve body is set in the diameter of the moving valve plate of the fluid valve, thus
So that the 9th channel of the fluid valve can keep first opening in communication with the valve body by a water inlet.
90. the fluid valve according to claim 87, which is characterized in that the first passage of the fluid valve, the second channel,
The third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at the fixed valve plate
First extension of the first fluid control plane, the Five-channel are arranged on the first edge of the first fluid control plane
Portion, the 12nd channel are arranged on the first edge portion of the first fluid control plane;9th channel of the fluid valve and
11st channel is respectively set at second extension of the second fluid control plane of the moving valve plate, the tenth channel and
Tenth triple channel is arranged on the second edge portion of the second fluid control plane of the moving valve plate and from the second edge portion
Extend inwardly to second extension.
91. fluid valve according to claim 39, which is characterized in that when the fluid valve be in second working position, this
When four working positions, the 5th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage.
92. the fluid valve according to claim 91, which is characterized in that, should when the fluid valve is in the third working position
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel.
93. fluid valve according to claim 45, which is characterized in that when the fluid valve be in second working position, this
When four working positions, the 5th working position, the 6th working position and seven working positions, the spool of the fluid valve is further formed
One respectively with the valve body this first opening and the 8th opening in communication the 17th communicating passage, when the fluid valve is in
When second working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The 12nd channel and the valve body first opening in communication, to form the 17th communicating passage.
94. the fluid valve according to claim 93, which is characterized in that, should when the fluid valve is in the third working position
The spool of fluid valve be further formed one respectively with the valve body this first opening and the 8th opening in communication the tenth
Eight connectivity channel, when the fluid valve is in the third working position, the 9th channel of the fluid valve is connected with the 8th channel
Logical, the 8th channel is connected with the 12nd channel respectively in the tenth channel, to form the tenth eight connectivity channel.
95. fluid valve according to claim 42, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
Second channel and the third channel of fluid valve are closed by the moving valve plate.
96. fluid valve according to claim 43, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
Second channel and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in four working positions
The first passage, the second channel and third channel of fluid valve are closed by the moving valve plate;When fluid valve is in the 5th work
When making position, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
97. fluid valve according to claim 44, which is characterized in that, should when the fluid valve is in first working position
The second channel of fluid valve and the fourth lane are closed by the moving valve plate;It, should when the fluid valve is in second working position
First passage and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in the third working position
Second channel and the third channel of fluid valve are closed by the moving valve plate;It, should when the fluid valve is in four working positions
The first passage, the second channel and third channel of fluid valve are closed by the moving valve plate;When fluid valve is in the 5th work
When making position, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 6th work
When making position, the first passage, the third channel and fourth lane of the fluid valve are closed by the moving valve plate;At the fluid valve
When seven working positions, the 6th channel of the fluid valve is closed by the moving valve plate.
98. the fluid valve according to claim 95, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth threeway
Road is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel of the fluid valve is connected with the fourth lane.
99. the fluid valve according to claim 96, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth threeway
Road is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel of the fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the fluid
Tenth triple channel of valve is connected with the Five-channel;When the fluid valve is in five working positions, the fluid valve this
Six channels and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel, should
Tenth channel of fluid valve is connected with the 8th channel and the first passage respectively.
100. the fluid valve according to claim 97, which is characterized in that, should when the fluid valve is in first working position
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth four-way
It is logical;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth threeway
Road is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel of the fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the fluid
Tenth triple channel of valve is connected with the Five-channel;When the fluid valve is in five working positions, the fluid valve this
Six channels and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel, should
Tenth channel of fluid valve is connected with the 8th channel and the first passage respectively;When the fluid valve is in the 6th work
When position, the 6th channel of the fluid valve is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel
Logical, the tenth triple channel of the fluid valve is connected with the 7th channel;When the fluid valve is in seven working positions, the stream
The first passage of body valve and the 8th channel are closed by the moving valve plate, and the tenth channel of the fluid valve is second logical with this respectively
Road is connected with the fourth lane, and the 11st channel is connected with the tenth four-way, the tenth triple channel of the fluid valve
It is connected respectively with the third channel and the Five-channel.
101. the fluid valve according to claim 95, which is characterized in that when the fluid valve is in second working position and should
When third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
102. the fluid valve according to claim 96, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
103. the fluid valve according to claim 97, which is characterized in that when the fluid valve be in second working position, this
When three working positions, the 4th working position, the 5th working position and six working positions, the Five-channel of the fluid valve is moved by this
Valve block closing.
104. the fluid valve according to claim 95, which is characterized in that, should when the fluid valve is in second working position
It is closed by the moving valve plate in 12nd channel of fluid valve.
105. the fluid valve according to claim 96, which is characterized in that when the fluid valve be in second working position, this
When four working positions and five working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
106. the fluid valve according to claim 97, which is characterized in that when the fluid valve be in second working position, this
When four working positions, the 5th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is by this
Moving valve plate closing.
107. according to claim 42,43,44,45,93,94,95,96,97,98,99,100,101,102,103,104,105
Or fluid valve described in 106, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are with this sequence up time
Needle it is arranged in the fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve
The moving valve plate is deasil arranged in this sequence.
108. according to claim 42,43,44,45,93,94,95,96,97,98,99,100,101,102,103,104,105
Or fluid valve described in 106, which is characterized in that the fixed valve plate is suitable for the first fluid and controls upward set on the inner cavity, should
Moving valve plate is suitable for the second fluid and controls face-down set on the inner cavity, and the moving valve plate is arranged on the top of the fixed valve plate,
Wherein the inner cavity is set is connected with first opening and the 9th channel respectively.
109. according to claim 42,43,44,45,93,94,95,96,97,98,99,100,101,102,103,104,105
Or fluid valve described in 106, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III, the Part IV and Part V of body control plane extend downwardly;12nd channel is certainly
The Part III of the first fluid control plane extends downwardly;The second channel is from the first fluid control plane of the fixed valve plate
The Part VI extends downwardly;The fourth lane is from the Part VII of the first fluid control plane of the fixed valve plate to downward
It stretches;7th channel is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the first fluid control
The Part IX in face processed extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;It should
Five-channel is extended downwardly from the Part X of the first fluid control plane and the tenth a part;Tenth four-way certainly should
The central part of first fluid control plane extends downwardly;9th channel from the first area of the second fluid control plane to
Upper extension;Tenth triple channel is upwardly extended from the third region of the second fluid control plane;11st channel from this
The central area of two fluid control planes extends to the Section Eight domain of the second fluid control plane;Tenth channel from this second
The tenth region and the 11st region of fluid control plane upwardly extend.
110. fluid valve described in 09 according to claim 1, which is characterized in that the first passage of the fluid valve, this is second logical
Road, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this and determine valve
First extension of the first fluid control plane of piece, the Five-channel be arranged on the first fluid control plane this first
Edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve is logical
Road is arranged on second extension of the second fluid control plane of the moving valve plate, the tenth channel and the tenth triple channel quilt
Be arranged in the second edge portion of the second fluid control plane of the moving valve plate and from the second edge portion extend inwardly to this
Two extensions.
111. fluid valve according to claim 2, which is characterized in that further have the 4th working position and one the
Five working positions, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
The eight connectivity channel of first opening and the third opening in communication, one respectively with the 4th of valve body opening and this
9th communicating passage of six opening in communication and one open with the 9th of the 7th opening of the valve body and the fluid valve the respectively
The tenth communicating passage that mouth is connected;When the fluid valve is in five working positions, the spool of the fluid valve forms one
Respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve body
The 7th opening and the 9th opening in communication the 12nd communicating passage.
112. fluid valve described in 11 according to claim 1, which is characterized in that further have the 6th working position and one
7th working position, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with this
Valve body this first opening and the 5th opening in communication the tenth tee joint channel and one respectively with the valve body the 6th
14th communicating passage of opening and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool formed one respectively with the valve body this first opening and the 4th opening in communication the 15th communicating passage.
113. fluid valve described in 12 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The spool be further formed one respectively with the valve body this first opening and second opening in communication the 16th be connected to lead to
Road.
114. fluid valve described in 13 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve be further formed one respectively with
17th communicating passage of first opening and the 8th opening in communication of the valve body.
115. fluid valve described in 14 according to claim 1, which is characterized in that when the fluid valve is in the third working position and should
When five working positions, the spool of the fluid valve is further formed one and opens respectively with first opening and the 8th of the valve body
The tenth eight connectivity channel that mouth is connected.
116. fluid valve according to claim 2, which is characterized in that the fluid valve is flat valve, wherein the fluid valve
The spool includes a moving valve plate and a fixed valve plate, and wherein the fixed valve plate has a first fluid control plane, the moving valve plate
With a second fluid control plane, wherein the moving valve plate and the fixed valve plate are arranged on the inner cavity, wherein the moving valve plate
The second fluid control plane is arranged on the first fluid control plane of the fixed valve plate, and the moving valve plate is set and opposite can be somebody's turn to do
Fixed valve plate rotation, wherein the fluid valve has a first passage, a second channel, a third channel, a four-way
Road, a Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, one the tenth
Channel, the 11st channel, the 12nd channel, the tenth triple channel and the tenth four-way, wherein this first
Channel, the second channel, the third channel, the fourth lane, the Five-channel, the 6th channel, the 7th channel, the 8th
Channel, the 12nd channel and the tenth four-way are respectively arranged on the fixed valve plate and respectively from the first fluid controls of the fixed valve plate
Face processed extends;9th channel, the tenth channel, the 11st channel and the tenth triple channel are respectively arranged on the moving valve plate and divide
Do not extend from the second fluid control plane of the moving valve plate, wherein the first passage and the second channel are open with the 5th respectively
Be connected, the third channel and the fourth lane respectively with the 7th opening in communication, the Five-channel and the second opening phase
Connection, the 6th channel and the third opening in communication, the 7th channel and the 4th opening in communication, the 8th channel and should
Tenth four-way respectively with the 6th opening in communication, the 12nd channel and the 8th opening in communication, the 9th channel with
First opening in communication of the valve body, the 11st channel and the 9th opening in communication, wherein being somebody's turn to do when the fluid valve is in
When the first working position, the 9th channel of the fluid valve is connected with the first passage, so that first communicating passage is formed, it should
Tenth channel is connected with the third channel and the Five-channel respectively, to form second communicating passage, the tenth threeway
Road is connected with the 8th channel and the 12nd channel respectively, to form the third connecting channel;When the fluid valve is in
When second working position, the 9th channel of the fluid valve is connected with the fourth lane, so that the 4th communicating passage is formed,
11st channel is connected with the 8th channel, to form the 5th communicating passage;When the fluid valve is in the third work
When making position, the 8th channel of the fluid valve is connected with the 9th channel, so that the 6th communicating passage is formed, the 11st
Channel is connected with the first passage, to form the 7th communicating passage.
117. fluid valve described in 16 according to claim 1, which is characterized in that further have the 4th working position and one
5th working position, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
First opening and the third opening in communication eight connectivity channel, one respectively with the 4th of valve body opening and should
9th communicating passage of the 6th opening in communication and one respectively with the 7th opening of the valve body and the fluid valve the 9th
Tenth communicating passage of opening in communication;When the fluid valve is in five working positions, the spool of the fluid valve forms one
It is a respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve
12nd communicating passage of the 7th opening and the 9th opening in communication of body;Wherein when the fluid valve is in the 4th work
When position, the 9th channel of the fluid valve is connected with the 6th channel, so that the eight connectivity channel is formed, the tenth channel
Be connected respectively with the 7th channel and the tenth four-way, to form the 9th communicating passage, the 11st channel with should
Fourth lane is connected, to form the tenth communicating passage;When the fluid valve is in five working positions, the fluid valve
9th channel is connected with the 8th channel, so that the 11st communicating passage is formed, the 11st channel of the fluid valve
It is connected with the third channel, to form the 12nd communicating passage.
118. fluid valve described in 17 according to claim 1, which is characterized in that further have the 6th working position and one
7th working position, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with this
Valve body this first opening and the 5th opening in communication the tenth tee joint channel and one respectively with the valve body the 6th
14th communicating passage of opening and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool formed one respectively with the valve body this first opening and the 4th opening in communication the 15th communicating passage;Its
In when the fluid valve is in six working positions, the 9th channel of the fluid valve is connected with the second channel, thus shape
At the tenth tee joint channel, the 11st channel of the fluid valve is connected with the 8th channel, to form the 14th
Communicating passage;When the fluid valve is in seven working positions, the 9th channel of the fluid valve is connected with the 7th channel,
To form the 15th communicating passage.
119. fluid valve described in 18 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The spool be further formed one respectively with the valve body this first opening and second opening in communication the 16th be connected to lead to
Road, when the fluid valve is in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When making position and seven working positions, the Five-channel of the fluid valve and first opening in communication of the valve body, to be formed
16th communicating passage.
120. fluid valve described in 19 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve be further formed one respectively with
17th communicating passage of first opening and the 8th opening in communication of the valve body, when the fluid valve is in second work
When position, the 4th working position, the 6th working position and seven working positions, the 12nd channel and the valve body of the fluid valve
First opening in communication, to form the 17th communicating passage.
121. fluid valve described in 20 according to claim 1, which is characterized in that when the fluid valve is in the third working position and should
When five working positions, the spool of the fluid valve is further formed one and opens respectively with first opening and the 8th of the valve body
The tenth eight connectivity channel that mouth is connected, when the fluid valve is in the third working position and five working positions, the fluid valve
The 9th channel be connected with the 8th channel, the 8th channel is connected with the 12nd channel respectively in the tenth channel,
To form the tenth eight connectivity channel.
122. fluid valve described in 16 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate.
123. fluid valve described in 17 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When this
When fluid valve is in four working positions, the first passage, the second channel, third channel and the 8th of the fluid valve lead to
It is closed by the moving valve plate in road;When the fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane
It is closed with the tenth four-way by the moving valve plate.
124. fluid valve described in 18 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When this
When fluid valve is in four working positions, the first passage, the second channel, third channel and the 8th of the fluid valve lead to
It is closed by the moving valve plate in road;When the fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane
It is closed with the tenth four-way by the moving valve plate;When the fluid valve is in six working positions, this of the fluid valve is first logical
Road, the third channel and the tenth four-way are closed by the moving valve plate.
125. fluid valve described in 22 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel is connected with the tenth four-way, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth triple channel of the fluid valve are connected with the second channel.
126. fluid valve described in 23 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel is connected with the tenth four-way, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth triple channel of the fluid valve are connected with the second channel;When the fluid valve is in the 4th working position
When, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in five working positions, the stream
The 6th channel and the 7th channel of body valve are closed by the moving valve plate, the tenth triple channel of the fluid valve and the 8th channel
It is connected.
127. fluid valve described in 24 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;When
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel is connected with the tenth four-way, and the tenth channel of the fluid valve is logical with the second channel and the 8th respectively
Road is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth triple channel of the fluid valve are connected with the second channel;When the fluid valve is in the 4th working position
When, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in five working positions, the stream
The 6th channel and the 7th channel of body valve are closed by the moving valve plate, the tenth triple channel of the fluid valve and the 8th channel
It is connected;When the fluid valve is in six working positions, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth channel of the fluid valve are connected with the 8th channel, the tenth triple channel and the 4th of the fluid valve
Channel is connected;When the fluid valve is in seven working positions, the first passage of the fluid valve, the third channel and this
Eight channels are closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the fourth lane and the tenth four-way respectively
Logical, the tenth triple channel of the fluid valve is connected with the 6th channel.
128. fluid valve described in 22 according to claim 1, which is characterized in that when the fluid valve is in second working position and should
When third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
129. fluid valve described in 23 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
130. fluid valve described in 24 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel is closed by the moving valve plate.
131. fluid valve described in 22 according to claim 1, which is characterized in that when the fluid valve is in second working position,
It is closed by the moving valve plate in 12nd channel of the fluid valve.
132. fluid valve described in 23 according to claim 1, which is characterized in that when the fluid valve is in second working position and should
When four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
133. fluid valve described in 24 according to claim 1, which is characterized in that when the fluid valve be in second working position, should
When the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
134. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the first passage of the fluid valve, the second channel, this
Triple channel, the fourth lane, the Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel and
Tenth four-way is set to the first fluid control plane of the fixed valve plate with being spaced respectively;9th channel, the tenth channel,
11st channel and the tenth triple channel are set to the second fluid control plane of the moving valve plate with being spaced respectively.
135. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the first passage of the fluid valve, the 8th channel and this
12 channels, the second channel, the fourth lane, the 7th channel, the 6th channel, the Five-channel and the third channel with
This sequence is deasil arranged in the fixed valve plate;11st channel of the fluid valve, the tenth channel, the 9th channel and should
Tenth triple channel is deasil arranged in the moving valve plate with this sequence.
136. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the fixed valve plate is suitable for first fluid control and sets upward
In the inner cavity, which is suitable for the second fluid and controls face-down set on the inner cavity, and the moving valve plate is arranged on this and determines
The top of valve block, wherein the inner cavity is set is connected with first opening and the 9th channel respectively.
137. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the softening plant further comprises an ejector and one
Brine tank, wherein the ejector have one be suitable for being suitable for the exit wound of bullet of the third opening in communication of the valve body and one with
The entry portal of 4th opening in communication of the valve body, wherein the brine tank is suitable for being connected with the ejector.
138. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the fixed valve plate of the fluid valve have first central part,
One from outwardly extending first extension of first central part and one from the outwardly extending first edge of the first extension
Portion, the moving valve plate have second central part, one from outwardly extending second extension of second central part and one from
The outwardly extending second edge portion of second extension, wherein the first fluid control plane of the fixed valve plate has a central part
Point, wherein the central part is located at first central part of the fixed valve plate, and the central part of the first fluid control plane
Except part be divided into clockwise a first part, a second part, a Part III, a Part IV,
One Part V, a Part VI, a Part VII, a Part VIII, a Part IX, a Part X
With one the tenth a part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, wherein should
Central area is set to second central part of the moving valve plate, and the part quilt except the central area of the second fluid control plane
Clockwise be divided into a first area, a second area, a third region, a fourth region, the 5th region,
One the 6th region, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and one the 11st
Region;Wherein the first passage is extended downwardly from the first part of the first fluid control plane;Valve is determined from this in 8th channel
The second part, the Part III and Part IV of the first fluid control plane of piece extend downwardly;12nd channel
It is extended downwardly from the second part of the first fluid control plane;The first fluid control plane of the second channel from the fixed valve plate
The Part V extend downwardly;The fourth lane is from the Part VI of the first fluid control plane of the fixed valve plate to downward
It stretches;Tenth four-way is extended downwardly from the Part VII of the first fluid control plane;7th channel is from the first fluid
The Part VIII of control plane extends downwardly;6th channel is extended downwardly from the Part IX of the first fluid control plane;
The Five-channel is extended downwardly from the Part X of the first fluid control plane and the tenth a part;The third channel certainly should
The tenth a part of first fluid control plane extends downwardly;9th channel is from the first area of the second fluid control plane
It upwardly extends;Tenth triple channel is upwardly extended from the second area of the second fluid control plane;Certainly should in 11st channel
9th region of second fluid control plane upwardly extends;Tenth channel from the tenth region of the second fluid control plane and
11st region upwardly extends.
139. according to claim 1 16,117,118,119,120,121,122,123,124,125,126,127,128,129,
130, fluid valve described in 131,132 or 133, which is characterized in that the fluid valve further comprises a diversion member, wherein should
Diversion member forms a drain outlet, and wherein the row from moving valve plate extension and the diversion member is set in the diversion member
Dirty channel respectively with the 11st channel of the fluid valve and the 9th opening in communication.
140. fluid valve described in 38 according to claim 1, which is characterized in that the first passage of the fluid valve, this is second logical
Road, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this and determine valve
First extension of the first fluid control plane of piece, the Five-channel be arranged on the first fluid control plane this first
Edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve is logical
Road and the 11st channel are respectively set at second extension of the second fluid control plane of the moving valve plate, and the tenth is logical
Road and the tenth triple channel are arranged on the second edge portion of the second fluid control plane of the moving valve plate and from second sides
Edge extends inwardly to second extension.
141. fluid valves according to claim 36, which is characterized in that further there is the 4th working position and one
5th working position, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
First opening and the third opening in communication eight connectivity channel, one respectively with the 4th of valve body opening and should
9th communicating passage of the 6th opening in communication and one respectively with the 7th opening of the valve body and the fluid valve the 9th
Tenth communicating passage of opening in communication;When the fluid valve is in five working positions, the spool of the fluid valve forms one
It is a respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve
12nd communicating passage of the 7th opening and the 9th opening in communication of body.
142. fluid valves described in 41 according to claim 1, which is characterized in that further there is the 6th working position and one
7th working position, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with this
Valve body this first opening and the 5th opening in communication the tenth tee joint channel and one respectively with the valve body the 6th
14th communicating passage of opening and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool formed one respectively with the valve body this first opening and the 4th opening in communication the 15th communicating passage.
143. fluid valves described in 42 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The spool be further formed one respectively with the valve body this first opening and second opening in communication the 16th be connected to lead to
Road.
144. fluid valves described in 43 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve be further formed one respectively with
17th communicating passage of first opening and the 8th opening in communication of the valve body.
145. fluid valves described in 44 according to claim 1, which is characterized in that when the fluid valve is in the third working position and should
When five working positions, the spool of the fluid valve is further formed one and opens respectively with first opening and the 8th of the valve body
The tenth eight connectivity channel that mouth is connected.
146. fluid valves according to claim 36, which is characterized in that the fluid valve is flat valve, wherein the fluid valve
The spool includes a moving valve plate and a fixed valve plate, and wherein the fixed valve plate has a first fluid control plane, the moving valve plate
With a second fluid control plane, wherein the moving valve plate and the fixed valve plate are arranged on the inner cavity, wherein the moving valve plate
The second fluid control plane is arranged on the first fluid control plane of the fixed valve plate, and the moving valve plate is set and opposite can be somebody's turn to do
Fixed valve plate rotation, wherein the fluid valve has a first passage, a second channel, a third channel, a four-way
Road, a Five-channel, the 6th channel, the 7th channel, the 8th channel, the 9th channel, one the tenth
Channel, the 11st channel, the 12nd channel, the tenth triple channel, the tenth four-way and one the 15th
Channel, wherein the first passage, the second channel, the third channel, the fourth lane, the Five-channel, the 6th channel, should
7th channel, the 8th channel, the 12nd channel, the tenth four-way and the tenth Five-channel are respectively arranged on the fixed valve plate simultaneously
Extend respectively from the first fluid control plane of the fixed valve plate;9th channel, the tenth channel, the 11st channel and this
Ten triple channels are respectively arranged on the moving valve plate and extend respectively from the second fluid control plane of the moving valve plate, wherein the first passage
It is connected respectively with the 7th opening with the 5th opening in communication, the third channel and the fourth lane respectively with the second channel
It is logical, the Five-channel and second opening in communication, the 6th channel and the third opening in communication, the 7th channel and this
Four opening in communication, the 8th channel and the tenth four-way respectively with the 6th opening in communication, the 12nd channel with should
8th opening in communication, first opening in communication in the 9th channel and the valve body, the 11st channel are logical with the 15th
Road is connected, the tenth Five-channel and the 9th opening in communication, wherein when the fluid valve is in first working position, the stream
9th channel of body valve is connected with the first passage, to form first communicating passage, the tenth channel respectively with this
Third channel is connected with the Five-channel, to form second communicating passage, the tenth triple channel is logical with the 8th respectively
Road is connected with the 12nd channel, to form the third connecting channel;It, should when the fluid valve is in second working position
9th channel of fluid valve is connected with the fourth lane, so that the 4th communicating passage is formed, the 11st channel difference
It is connected with the 8th channel and the tenth Five-channel, to form the 5th communicating passage;When the fluid valve is in the third
When working position, the 8th channel of the fluid valve is connected with the 9th channel, so that the 6th communicating passage is formed, the tenth
One channel is connected to the first passage phase and the tenth Five-channel respectively, to form the 7th communicating passage.
147. fluid valves described in 46 according to claim 1, which is characterized in that further there is the 4th working position and one
5th working position, when the fluid valve is in four working positions, the spool of the fluid valve formed one respectively with the valve body
First opening and the third opening in communication eight connectivity channel, one respectively with the 4th of valve body opening and should
9th communicating passage of the 6th opening in communication and one respectively with the 7th opening of the valve body and the fluid valve the 9th
Tenth communicating passage of opening in communication;When the fluid valve is in five working positions, the spool of the fluid valve forms one
It is a respectively with the valve body this first opening and the 6th opening in communication the 11st communicating passage and one respectively with the valve
12nd communicating passage of the 7th opening and the 9th opening in communication of body;Wherein when the fluid valve is in the 4th work
When position, the 9th channel of the fluid valve is connected with the 6th channel, so that the eight connectivity channel is formed, the tenth channel
It is connected respectively with the 7th channel and the tenth four-way, so that the 9th communicating passage is formed, the 11st channel difference
It is connected with the fourth lane and the tenth Five-channel, to form the tenth communicating passage;When the fluid valve is in the 5th
When working position, the 9th channel of the fluid valve is connected with the 8th channel, so that the 11st communicating passage is formed, the stream
11st channel of body valve is connected with the third channel and the tenth Five-channel respectively, so that it is logical to form the 12nd connection
Road.
148. fluid valves described in 47 according to claim 1, which is characterized in that further there is the 6th working position and one
7th working position, wherein when the fluid valve is in six working positions, the spool of the fluid valve formed one respectively with this
Valve body this first opening and the 5th opening in communication the tenth tee joint channel and one respectively with the valve body the 6th
14th communicating passage of opening and the 9th opening in communication;When the fluid valve is in seven working positions, the fluid valve
The spool formed one respectively with the valve body this first opening and the 4th opening in communication the 15th communicating passage;Its
In when the fluid valve is in six working positions, the 9th channel of the fluid valve is connected with the second channel, thus shape
At the tenth tee joint channel, the 11st channel of the fluid valve is connected with the 8th channel and the tenth Five-channel respectively
It is logical, to form the 14th communicating passage;When the fluid valve is in seven working positions, the 9th channel of the fluid valve
It is connected with the 7th channel, to form the 15th communicating passage.
149. fluid valves described in 48 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The spool be further formed one respectively with the valve body this first opening and second opening in communication the 16th be connected to lead to
Road, when the fluid valve is in second working position, the third working position, the 4th working position, the 5th working position, the 6th work
When making position and seven working positions, the Five-channel of the fluid valve and first opening in communication of the valve body, to be formed
16th communicating passage.
150. fluid valves described in 49 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When the 4th working position, the 6th working position and seven working positions, the spool of the fluid valve be further formed one respectively with
17th communicating passage of first opening and the 8th opening in communication of the valve body, when the fluid valve is in second work
When position, the 4th working position, the 6th working position and seven working positions, the 12nd channel and the valve body of the fluid valve
First opening in communication, to form the 17th communicating passage.
151. fluid valves described in 50 according to claim 1, which is characterized in that when the fluid valve is in the third working position and should
When five working positions, the spool of the fluid valve is further formed one and opens respectively with first opening and the 8th of the valve body
The tenth eight connectivity channel that mouth is connected, when the fluid valve is in the third working position and five working positions, the fluid valve
The 9th channel be connected with the 8th channel, the 8th channel is connected with the 12nd channel respectively in the tenth channel,
To form the tenth eight connectivity channel.
152. fluid valves described in 46 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate.
153. fluid valves described in 47 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When this
When fluid valve is in four working positions, the first passage, the second channel, third channel and the 8th of the fluid valve lead to
It is closed by the moving valve plate in road;When fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane and
Tenth four-way is closed by the moving valve plate.
154. fluid valves described in 48 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When the second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;It is somebody's turn to do when the fluid valve is in
When third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When this
When fluid valve is in four working positions, the first passage, the second channel, third channel and the 8th of the fluid valve lead to
It is closed by the moving valve plate in road;When fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane and
Tenth four-way is closed by the moving valve plate;When the fluid valve is in six working positions, the first passage of the fluid valve,
The third channel and the tenth four-way are closed by the moving valve plate.
155. fluid valves described in 52 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth Five-channel
It is logical;When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
Close, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and should
8th channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve
It is closed by the moving valve plate, the tenth triple channel of the fluid valve is connected with the second channel.
156. fluid valves described in 53 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth Five-channel
It is logical;When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
Close, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and should
8th channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve
It is closed by the moving valve plate, the tenth triple channel of the fluid valve is connected with the second channel;When the fluid valve is in the 4th
When working position, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in the 5th working position
When, the 6th channel of the fluid valve and the 7th channel are closed by the moving valve plate, the tenth triple channel of the fluid valve with should
8th channel is connected.
157. fluid valves described in 54 according to claim 1, which is characterized in that when the fluid valve is in first working position,
The 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is connected with the tenth Five-channel
It is logical;When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
Close, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and should
8th channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve
It is closed by the moving valve plate, the tenth triple channel of the fluid valve is connected with the second channel;When the fluid valve is in the 4th
When working position, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in the 5th working position
When, the 6th channel of the fluid valve and the 7th channel are closed by the moving valve plate, the tenth triple channel of the fluid valve with should
8th channel is connected;When the fluid valve is in six working positions, the 6th channel and the 7th channel of the fluid valve
It is closed by the moving valve plate, the tenth channel of the fluid valve is connected with the 8th channel, the tenth triple channel of the fluid valve
It is connected with the fourth lane;When the fluid valve is in seven working positions, the first passage of the fluid valve, the third are logical
Road and the 8th channel are closed by the moving valve plate, the tenth channel of the fluid valve respectively with the fourth lane and the tenth four-way
Road is connected, and the tenth triple channel of the fluid valve is connected with the 6th channel.
158. fluid valves described in 52 according to claim 1, which is characterized in that when the fluid valve is in second working position and should
When third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
159. fluid valves described in 53 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
160. fluid valves described in 54 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel is closed by the moving valve plate.
161. fluid valves described in 52 according to claim 1, which is characterized in that when the fluid valve is in second working position,
It is closed by the moving valve plate in 12nd channel of the fluid valve.
162. fluid valves described in 53 according to claim 1, which is characterized in that when the fluid valve is in second working position and should
When four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
163. fluid valves described in 54 according to claim 1, which is characterized in that when the fluid valve is in second working position, should
When the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
164. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the first passage of the fluid valve, the second channel, this
Triple channel, the Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel, is somebody's turn to do at the fourth lane
Tenth four-way and the tenth Five-channel are set to the first fluid control plane of the fixed valve plate with being spaced respectively;9th is logical
Road, the tenth channel, the 11st channel and the tenth triple channel are set to the second fluid of the moving valve plate with being spaced respectively
Control plane.
165. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the first passage of the fluid valve, the 8th channel and this
12 channels, the second channel, the fourth lane, the tenth four-way, the 7th channel, the 6th channel, the Five-channel
The fixed valve plate is arranged in deasil with this sequence with the third channel;11st channel of the fluid valve, the tenth channel,
9th channel and the tenth triple channel are deasil arranged in the moving valve plate with this sequence.
166. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the fixed valve plate is suitable for first fluid control and sets upward
In the inner cavity, which is suitable for the second fluid and controls face-down set on the inner cavity, and the moving valve plate is arranged on this and determines
The top of valve block, wherein the inner cavity is set is connected with first opening and the 9th channel respectively.
167. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the softening plant further comprises an ejector and one
Brine tank, wherein the ejector have one be suitable for being suitable for the exit wound of bullet of the third opening in communication of the valve body and one with
The entry portal of 4th opening in communication of the valve body, wherein the brine tank is suitable for being connected with the ejector.
168. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the fixed valve plate of the fluid valve have first central part,
One from outwardly extending first extension of first central part and one from the outwardly extending first edge of the first extension
Portion, the moving valve plate have second central part, one from outwardly extending second extension of second central part and one from
The outwardly extending second edge portion of second extension, wherein the first fluid control plane of the fixed valve plate has a central part
Point, wherein the central part is located at first central part of the fixed valve plate, and the central part of the first fluid control plane
Except part be divided into clockwise a first part, a second part, a Part III, a Part IV,
One Part V, a Part VI, a Part VII, a Part VIII, a Part IX, a Part X
With one the tenth a part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, wherein should
Central area is set to second central part of the moving valve plate, and the part quilt except the central area of the second fluid control plane
Clockwise be divided into a first area, a second area, a third region, a fourth region, the 5th region,
One the 6th region, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and one the 11st
Region;Wherein the first passage is extended downwardly from the first part of the first fluid control plane;Valve is determined from this in 8th channel
The second part, the Part III and Part IV of the first fluid control plane of piece extend downwardly;12nd channel
It is extended downwardly from the second part of the first fluid control plane;The first fluid control plane of the second channel from the fixed valve plate
The Part V extend downwardly;The fourth lane is from the Part VI of the first fluid control plane of the fixed valve plate to downward
It stretches;Tenth four-way is extended downwardly from the Part VII of the first fluid control plane;7th channel is from the first fluid
The Part VIII of control plane extends downwardly;6th channel is extended downwardly from the Part IX of the first fluid control plane;
The Five-channel is extended downwardly from the Part X of the first fluid control plane and the tenth a part;The third channel certainly should
The tenth a part of first fluid control plane extends downwardly;The central part of tenth Five-channel from the first fluid control plane
Divide and extends downwardly;9th channel is upwardly extended from the first area of the second fluid control plane;Tenth triple channel certainly should
The second area of second fluid control plane upwardly extends;11st channel is from the central area of the second fluid control plane
Extend to the 9th region of the second fluid control plane;Tenth channel from the tenth region of the second fluid control plane and
11st region upwardly extends.
169. fluid valves described in 68 according to claim 1, which is characterized in that the first passage of the fluid valve, this is second logical
Road, the third channel, the fourth lane, the 6th channel, the 7th channel, the 8th channel and the tenth four-way respectively by
First extension of the first fluid control plane of the fixed valve plate is set, which is arranged on the first fluid control
The first edge portion in face processed, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The fluid
9th channel of valve is arranged on second extension of the second fluid control plane of the moving valve plate, the tenth channel and should
Tenth triple channel be arranged on the second edge portion of the second fluid control plane of the moving valve plate and from the second edge portion to
Inside extend to second extension.
170. according to claim 1 46,147,148,149,150,151,152,153,154,155,156,157,158,159,
160, fluid valve described in 161,162 or 163, which is characterized in that the diameter of the moving valve plate of the fluid valve is set to be less than and be somebody's turn to do
The diameter of the inner cavity of valve body, so that the 9th channel of the fluid valve can be kept and the valve body by a water inlet
First opening in communication.
A kind of 171. valve block components for fluid valve, wherein the fluid valve is flat valve characterized by comprising
One moving valve plate;With
One fixed valve plate, wherein the fixed valve plate has a first fluid control plane, which has a second fluid control
Face processed, wherein the second fluid control plane of the moving valve plate is suitable for being arranged on the first fluid control plane of the fixed valve plate, and
The moving valve plate, which is set, to be rotated relative to the fixed valve plate, wherein the fluid valve have a first passage, a second channel,
One third channel, a fourth lane, a Five-channel, the 6th channel, the 7th channel, one the 8th it is logical
Road, the 9th channel, the tenth channel, the 11st channel, the 12nd channel and the tenth triple channel,
In the first passage, second channel, the third channel, the fourth lane, the Five-channel, the 6th channel, the 7th logical
Road, the 8th channel and the 12nd channel are respectively arranged on the fixed valve plate and respectively from the first fluid control planes of the fixed valve plate
Extend;9th channel, the tenth channel, the 11st channel and the tenth triple channel are respectively arranged on the moving valve plate and respectively oneself
The second fluid control plane of the moving valve plate extends.
172. valve block components described in 71 according to claim 1, which is characterized in that the fluid valve have first working position,
One the second working position and a third working position, wherein the fluid valve is somebody's turn to do when the fluid valve is in first working position
9th channel is connected with the first passage, to form first communicating passage, the tenth channel is logical with the third respectively
Road is connected with the Five-channel, thus formed second communicating passage, the tenth triple channel respectively with the 8th channel and
12nd channel is connected, to form a third connecting channel;When the fluid valve is in second working position, the stream
9th channel of body valve is connected with the fourth lane, thus formed the 4th communicating passage, the 11st channel with should
8th channel is connected, to form the 5th communicating passage;When the fluid valve is in the third working position, the fluid valve
The 8th channel be connected with the 9th channel, thus formed the 6th communicating passage, the 11st channel and this first
Channel is connected, to form the 7th communicating passage.
173. valve block components described in 72 according to claim 1, which is characterized in that the fluid valve further has the 4th work
Make position and the 5th working position, wherein when the fluid valve is in four working positions, the 9th channel of the fluid valve with
6th channel is connected, thus formed an eight connectivity channel, the tenth channel respectively with the fourth lane and the 7th
Channel is connected, to form the 9th communicating passage, the 11st channel is connected with the 8th channel, to form one
A tenth communicating passage;When the fluid valve is in five working positions, the 9th channel and the 8th channel of the fluid valve
It is connected, to form the 11st communicating passage, the 11st channel of the fluid valve is connected with the third channel, from
And form the 12nd communicating passage.
174. valve block components described in 73 according to claim 1, which is characterized in that the fluid valve further has the 6th work
Make position and the 7th working position, wherein when the fluid valve is in six working positions, the 9th channel of the fluid valve with
The second channel is connected, to form a tenth tee joint channel, the 11st channel of the fluid valve is logical with the 8th
Road is connected, to form the 14th communicating passage;When the fluid valve is in seven working positions, which is somebody's turn to do
9th channel is connected with the 7th channel, to form the 15th communicating passage.
175. valve block components described in 72 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate.
176. valve block components described in 73 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, first passage and the second channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 5th working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
177. valve block components described in 74 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate, when the fluid valve is in the 4th working position
When, first passage and the second channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 5th working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 6th working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate.
178. valve block components described in 75 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, which is somebody's turn to do
Tenth triple channel is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and the 8th channel
It is connected;When the fluid valve is in the third working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel.
179. valve block components described in 76 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, which is somebody's turn to do
Tenth triple channel is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and the 8th channel
It is connected;When the fluid valve is in the third working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid valve
When in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;It is somebody's turn to do when the fluid valve is in
When five working positions, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the tenth of the fluid valve the
Triple channel is connected with the 8th channel.
180. valve block components described in 77 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, which is somebody's turn to do
Tenth triple channel is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and the 8th channel
It is connected;When the fluid valve is in the third working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When the fluid valve
When in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;It is somebody's turn to do when the fluid valve is in
When five working positions, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the tenth of the fluid valve the
Triple channel is connected with the 8th channel;When the fluid valve is in six working positions, the 6th channel of the fluid valve and
7th channel is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel, which is somebody's turn to do
Tenth triple channel is connected with the fourth lane;When the fluid valve is in seven working positions, this of the fluid valve is first logical
Road and the third channel are closed by the moving valve plate respectively, the tenth channel of the fluid valve respectively with the second channel and the 4th
Channel is connected, and the tenth triple channel of the fluid valve is connected with the 6th channel.
181. valve block components described in 75 according to claim 1, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
182. valve block components described in 76 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
183. valve block components described in 77 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel closed by the moving valve plate.
184. valve block components described in 75 according to claim 1, which is characterized in that when the fluid valve be in second working position and
When the third working position, the 12nd channel of the fluid valve is closed by the moving valve plate.
185. valve block components described in 76 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position and four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
186. valve block components described in 77 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve
It is closed by the moving valve plate.
187. according to claim 1 72,173,174,175,176,177,178,179,180,181,182,183,184,185 or
Valve block component described in 186, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, this
Four-way, the Five-channel, the 6th channel, the 7th channel, the 8th channel and the 12nd channel are spaced ground respectively
Set on the first fluid control plane of the fixed valve plate;9th channel, the tenth channel, the 11st channel and the tenth threeway
Road is set to the second fluid control plane of the moving valve plate with being spaced respectively.
188. according to claim 1 72,173,174,175,176,177,178,179,180,181,182,183,184,185 or
Valve block component described in 186, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are with this sequence up time
Needle it is arranged in the fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve
The moving valve plate is deasil arranged in this sequence.
189. according to claim 1 72,173,174,175,176,177,178,179,180,181,182,183,184,185 or
Valve block component described in 186, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III, the Part IV and Part V of body control plane extend downwardly;12nd channel is certainly
The second part of the first fluid control plane extends downwardly;The second channel is from the first fluid control plane of the fixed valve plate
The Part VI extends downwardly;The fourth lane is from the Part VII of the first fluid control plane of the fixed valve plate to downward
It stretches;7th channel is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the first fluid control
The Part IX in face processed extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;It should
Five-channel is extended downwardly from the tenth a part of the first fluid control plane;9th channel is from the second fluid control plane
The first area upwardly extend;Tenth triple channel is upwardly extended from the second area of the second fluid control plane;This
11 channels are upwardly extended from the Section Eight domain of the second fluid control plane;Tenth channel is from the second fluid control plane
Tenth region and the 11st region upwardly extend.
190. valve block components described in 89 according to claim 1, which is characterized in that the first passage of the fluid valve, this second
It is fixed that channel, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this
First extension of the first fluid control plane of valve block, the Five-channel be arranged on the first fluid control plane this
One edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve
Channel and the 11st channel are respectively set at second extension of the second fluid control plane of the moving valve plate, and the tenth
Channel and the tenth triple channel be arranged on the second edge portion of the second fluid control plane of the moving valve plate and from this second
Edge part extends inwardly to second extension.
191. valve block components described in 71 according to claim 1, which is characterized in that the fluid valve further has one the 14th
Channel, wherein the tenth four-way is set to the fixed valve plate and extends from the first fluid control plane of the fixed valve plate;The fluid valve
With first working position, second working position and a third working position, wherein when the fluid valve is in first work
When making position, the 9th channel of the fluid valve is connected with the first passage, so that first communicating passage is formed, the tenth
Channel is connected with the third channel and the Five-channel respectively, to form second communicating passage, the tenth triple channel
It is connected respectively with the 8th channel and the 12nd channel, to form a third connecting channel;When the fluid valve is in
When second working position, the 9th channel of the fluid valve is connected with the fourth lane, so that it is logical to form one the 4th connection
Road, the 11st channel are connected with the 8th channel and the tenth four-way respectively, to form the 5th communicating passage;
When the fluid valve is in the third working position, the 8th channel of the fluid valve is connected with the 9th channel, to be formed
One the 6th communicating passage, the 11st channel are connected with the first passage and the tenth four-way respectively, to form one
A 7th communicating passage.
192. valve block components described in 91 according to claim 1, which is characterized in that the fluid valve further has the 4th work
Make position and the 5th working position, wherein when the fluid valve is in four working positions, the 9th channel of the fluid valve with
6th channel is connected, thus formed an eight connectivity channel, the tenth channel respectively with the fourth lane and the 7th
Channel is connected, thus formed the 9th communicating passage, the 11st channel respectively with the 8th channel and the tenth four-way
Road is connected, to form the tenth communicating passage;When the fluid valve is in five working positions, the fluid valve this
Nine channels are connected with the 8th channel, so that the 11st communicating passage is formed, the 11st channel point of the fluid valve
It is not connected with the third channel and the tenth four-way, to form the 12nd communicating passage.
193. valve block components described in 92 according to claim 1, which is characterized in that the fluid valve further has the 6th work
Make position and the 7th working position, wherein when the fluid valve is in six working positions, the 9th channel of the fluid valve with
The second channel is connected, to form a tenth tee joint channel, the 11st channel of the fluid valve respectively with this
Eight channels are connected with the tenth four-way, to form the 14th communicating passage;When the fluid valve is in the 7th work
When making position, the 9th channel of the fluid valve is connected with the 7th channel, to form the 15th communicating passage.
194. valve block components described in 91 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate.
195. valve block components described in 92 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, first passage and the second channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 5th working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
196. valve block components described in 93 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, the third channel of the fluid valve and the fourth lane are closed by the moving valve plate, when the fluid valve is in the 4th working position
When, first passage and the second channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 5th working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in the 6th working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate.
197. valve block components described in 94 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and this
Eight channels are connected;When the fluid valve is in the third working position, the 6th channel of the fluid valve and the 7th channel quilt
Moving valve plate closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel.
198. valve block components described in 95 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and this
Eight channels are connected;When the fluid valve is in the third working position, the 6th channel of the fluid valve and the 7th channel quilt
Moving valve plate closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When this
When fluid valve is in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve
When in five working positions, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the fluid valve
Tenth triple channel is connected with the 8th channel.
199. valve block components described in 96 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 6th channel of the fluid valve is closed by the moving valve plate, the fluid
Tenth triple channel of valve is connected with the 7th channel, the tenth channel of the fluid valve respectively with the second channel and this
Eight channels are connected;When the fluid valve is in the third working position, the 6th channel of the fluid valve and the 7th channel quilt
Moving valve plate closing, the tenth channel are connected with the 8th channel, and the tenth triple channel is connected with the second channel;When this
When fluid valve is in four working positions, the tenth triple channel of the fluid valve is connected with the third channel;When the fluid valve
When in five working positions, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the fluid valve
Tenth triple channel is connected with the 8th channel;When the fluid valve is in six working positions, the 6th of the fluid valve the
Channel and the 7th channel are closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel, the fluid
Tenth triple channel of valve is connected with the fourth lane;When the fluid valve is in seven working positions, which is somebody's turn to do
First passage and the third channel are closed by the moving valve plate respectively, the tenth channel of the fluid valve respectively with the second channel and
The fourth lane is connected, and the tenth triple channel of the fluid valve is connected with the 6th channel.
200. valve block components described in 94 according to claim 1, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
201. valve block components described in 95 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
202. valve block components described in 96 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel closed by the moving valve plate.
203. valve block components described in 94 according to claim 1, which is characterized in that when the fluid valve be in second working position and
When the third working position, the 12nd channel of the fluid valve is closed by the moving valve plate.
204. valve block components described in 95 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position and four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
205. valve block components described in 96 according to claim 1, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve
It is closed by the moving valve plate.
206. according to claim 1 91,192,193,194,195,196,197,198,199,200,201,202,203,204 or
Valve block component described in 205, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, this
Four-way, the Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel and the tenth four-way
It is set to the first fluid control plane of the fixed valve plate with being spaced respectively;9th channel, the tenth channel, the 11st channel
The second fluid control plane of the moving valve plate is set to the tenth triple channel with being spaced respectively.
207. according to claim 1 91,192,193,194,195,196,197,198,199,200,201,202,203,204 or
Valve block component described in 205, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are with this sequence up time
Needle it is arranged in the fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve
The moving valve plate is deasil arranged in this sequence.
208. according to claim 1 91,192,193,194,195,196,197,198,199,200,201,202,203,204 or
Valve block component described in 205, which is characterized in that the first fluid control plane of the fixed valve plate of the fluid valve and the moving valve plate
The second fluid control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, this
Five-channel, the 6th channel, the 7th channel, the 8th channel and the 12nd channel are radially set to being somebody's turn to do for the fixed valve plate
First fluid control plane, the tenth triple channel, the 9th channel and the tenth channel radially set on the moving valve plate this
Two fluid control planes.
209. according to claim 1 91,192,193,194,195,196,197,198,199,200,201,202,203,204 or
Valve block component described in 205, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III, the Part IV and Part V of body control plane extend downwardly;12nd channel is certainly
The second part of the first fluid control plane extends downwardly;The second channel is from the first fluid control plane of the fixed valve plate
The Part VI extends downwardly;The fourth lane is from the Part VII of the first fluid control plane of the fixed valve plate to downward
It stretches;7th channel is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the first fluid control
The Part IX in face processed extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;It should
Five-channel is extended downwardly from the tenth a part of the first fluid control plane;Tenth four-way is controlled from the first fluid
The central part in face extends downwardly;9th channel is upwardly extended from the first area of the second fluid control plane;This
Ten triple channels are upwardly extended from the second area of the second fluid control plane;11st channel is from the second fluid control plane
The central area extend to the Section Eight domain of the second fluid control plane;Tenth channel is from the second fluid control plane
Tenth region and the 11st region upwardly extend.
The 210. valve block components according to claim 209, which is characterized in that the first passage of the fluid valve, this second
It is fixed that channel, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this
First extension of the first fluid control plane of valve block, the Five-channel be arranged on the first fluid control plane this
One edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve
Channel is arranged on second extension of the second fluid control plane of the moving valve plate, the tenth channel and the tenth triple channel
It is arranged on the second edge portion of the second fluid control plane of the moving valve plate and extends inwardly to this from the second edge portion
Second extension.
211. valve block components described in 72 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate.
212. valve block components described in 73 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, the first passage, the second channel and third channel of the fluid valve are closed by the moving valve plate;When fluid valve be in this
When five working positions, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
213. valve block components described in 74 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, the first passage, the second channel and third channel of the fluid valve are closed by the moving valve plate;When fluid valve be in this
When five working positions, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve be in this
When six working positions, the first passage, the third channel and fourth lane of the fluid valve are closed by the moving valve plate;When the fluid
When valve is in seven working positions, the 6th channel of the fluid valve is closed by the moving valve plate.
The 214. valve block components according to claim 211, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel
It is connected with the 6th channel, the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel of fluid valve is connected with the fourth lane.
The 215. valve block components according to claim 212, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel
It is connected with the 6th channel, the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel of fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the fluid valve
The tenth triple channel be connected with the Five-channel;When the fluid valve is in five working positions, the fluid valve the 6th
Channel and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel, the stream
Tenth channel of body valve is connected with the 8th channel and the first passage respectively.
The 216. valve block components according to claim 213, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, the tenth triple channel
It is connected with the 6th channel, the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively;When
When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, should
Tenth triple channel of fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the fluid valve
The tenth triple channel be connected with the Five-channel;When the fluid valve is in five working positions, the fluid valve the 6th
Channel and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel, the stream
Tenth channel of body valve is connected with the 8th channel and the first passage respectively;When the fluid valve is in the 6th working position
When, the 6th channel of the fluid valve is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel,
Tenth triple channel of the fluid valve is connected with the 7th channel;When the fluid valve is in seven working positions, the fluid
The first passage of valve and the 8th channel are closed by the moving valve plate, the tenth channel of the fluid valve respectively with the second channel
It is connected with the fourth lane, the tenth triple channel of the fluid valve is connected with the third channel and the Five-channel respectively.
The 217. valve block components according to claim 211, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
The 218. valve block components according to claim 212, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
The 219. valve block components according to claim 213, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position and six working positions, the Five-channel quilt of the fluid valve
Moving valve plate closing.
The 220. valve block components according to claim 211, which is characterized in that when the fluid valve is in second working position
When, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 221. valve block components according to claim 212, which is characterized in that when the fluid valve be in second working position,
When the 4th working position and five working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 222. valve block components according to claim 213, which is characterized in that when the fluid valve be in second working position,
When the 4th working position, the 5th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve
It is closed by the moving valve plate.
223. according to claim 1 72,173,174,211,212,213,214,215,216,217,218,219,220,221 or
Valve block component described in 222, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are with this sequence up time
Needle it is arranged in the fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve
The moving valve plate is deasil arranged in this sequence.
224. according to claim 1 72,173,174,211,212,213,214,215,216,217,218,219,220,221 or
Valve block component described in 222, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III, the Part IV and Part V of body control plane extend downwardly;12nd channel is certainly
The Part III of the first fluid control plane extends downwardly;The second channel is from the first fluid control plane of the fixed valve plate
The Part VI extends downwardly;The fourth lane is from the Part VII of the first fluid control plane of the fixed valve plate to downward
It stretches;7th channel is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the first fluid control
The Part IX in face processed extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;It should
Five-channel is extended downwardly from the Part X of the first fluid control plane and the tenth a part;9th channel from this
The first area of two fluid control planes upwardly extends;Tenth triple channel from the third region of the second fluid control plane to
Upper extension;11st channel is upwardly extended from the Section Eight domain of the second fluid control plane;Tenth channel from this second
The tenth region and the 11st region of fluid control plane upwardly extend.
The 225. valve block components according to claim 224, which is characterized in that the first passage of the fluid valve, this second
It is fixed that channel, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this
First extension of the first fluid control plane of valve block, the Five-channel be arranged on the first fluid control plane this
One edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve
Channel and the 11st channel are respectively set at second extension of the second fluid control plane of the moving valve plate, and the tenth
Channel and the tenth triple channel be arranged on the second edge portion of the second fluid control plane of the moving valve plate and from this second
Edge part extends inwardly to second extension.
226. valve block components described in 91 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate.
227. valve block components described in 92 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, the first passage, the second channel and third channel of the fluid valve are closed by the moving valve plate;When fluid valve be in this
When five working positions, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate.
228. valve block components described in 93 according to claim 1, which is characterized in that when the fluid valve is in first working position
When, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve is in second working position
When, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the third working position
When, second channel and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in the 4th working position
When, the first passage, the second channel and third channel of the fluid valve are closed by the moving valve plate;When fluid valve be in this
When five working positions, the second channel of the fluid valve and the fourth lane are closed by the moving valve plate;When the fluid valve be in this
When six working positions, the first passage, the third channel and fourth lane of the fluid valve are closed by the moving valve plate;When the fluid
When valve is in seven working positions, the 6th channel of the fluid valve is closed by the moving valve plate.
The 229. valve block components according to claim 226, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, and the tenth
Triple channel is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth triple channel of the fluid valve is connected with the fourth lane.
The 230. valve block components according to claim 227, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, and the tenth
Triple channel is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth triple channel of the fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the stream
Tenth triple channel of body valve is connected with the Five-channel;When the fluid valve is in five working positions, which should
6th channel and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel,
Tenth channel of the fluid valve is connected with the 8th channel and the first passage respectively.
The 231. valve block components according to claim 228, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth four-way
It is connected;When the fluid valve is in second working position, the 7th channel of the fluid valve is closed by the moving valve plate, and the tenth
Triple channel is connected with the 6th channel, and the tenth channel of the fluid valve is connected with the second channel and the 8th channel respectively
It is logical;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are sealed by the moving valve plate
It closes, the tenth triple channel of the fluid valve is connected with the fourth lane;When the fluid valve is in four working positions, the stream
Tenth triple channel of body valve is connected with the Five-channel;When the fluid valve is in five working positions, which should
6th channel and the 7th channel are closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the 8th channel,
Tenth channel of the fluid valve is connected with the 8th channel and the first passage respectively;When the fluid valve is in the 6th work
When making position, the 6th channel of the fluid valve is closed by the moving valve plate, the tenth channel and the 8th channel phase of the fluid valve
Connection, the tenth triple channel of the fluid valve are connected with the 7th channel;It, should when the fluid valve is in seven working positions
The first passage of fluid valve and the 8th channel are closed by the moving valve plate, the tenth channel of the fluid valve respectively with this second
Channel is connected with the fourth lane, and the 11st channel is connected with the tenth four-way, the tenth threeway of the fluid valve
Road is connected with the third channel and the Five-channel respectively.
The 232. valve block components according to claim 226, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
The 233. valve block components according to claim 227, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
The 234. valve block components according to claim 228, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position and six working positions, the Five-channel quilt of the fluid valve
Moving valve plate closing.
The 235. valve block components according to claim 226, which is characterized in that when the fluid valve is in second working position
When, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 236. valve block components according to claim 227, which is characterized in that when the fluid valve be in second working position,
When the 4th working position and five working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 237. valve block components according to claim 228, which is characterized in that when the fluid valve be in second working position,
When the 4th working position, the 5th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve
It is closed by the moving valve plate.
238. according to claim 1 91,192,193,226,227,228,229,230,231,232,233,234,235,236 or
Valve block component described in 237, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the 7th channel, the 6th channel, the third channel and the Five-channel are with this sequence up time
Needle it is arranged in the fixed valve plate;The 11st channel, the tenth channel, the 9th channel and the tenth triple channel of the fluid valve
The moving valve plate is deasil arranged in this sequence.
239. according to claim 1 91,192,193,226,227,228,229,230,231,232,233,234,235,236 or
Valve block component described in 237, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III, the Part IV and Part V of body control plane extend downwardly;12nd channel is certainly
The Part III of the first fluid control plane extends downwardly;The second channel is from the first fluid control plane of the fixed valve plate
The Part VI extends downwardly;The fourth lane is from the Part VII of the first fluid control plane of the fixed valve plate to downward
It stretches;7th channel is extended downwardly from the Part VIII of the first fluid control plane;6th channel is from the first fluid control
The Part IX in face processed extends downwardly;The third channel is extended downwardly from the Part X of the first fluid control plane;It should
Five-channel is extended downwardly from the Part X of the first fluid control plane and the tenth a part;Tenth four-way certainly should
The central part of first fluid control plane extends downwardly;9th channel from the first area of the second fluid control plane to
Upper extension;Tenth triple channel is upwardly extended from the third region of the second fluid control plane;11st channel from this
The central area of two fluid control planes extends to the Section Eight domain of the second fluid control plane;Tenth channel from this second
The tenth region and the 11st region of fluid control plane upwardly extend.
The 240. valve block components according to claim 239, which is characterized in that the first passage of the fluid valve, this second
It is fixed that channel, the third channel, the fourth lane, the 6th channel, the 7th channel and the 8th channel are respectively set at this
First extension of the first fluid control plane of valve block, the Five-channel be arranged on the first fluid control plane this
One edge part, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The 9th of the fluid valve
Channel is arranged on second extension of the second fluid control plane of the moving valve plate, the tenth channel and the tenth triple channel
It is arranged on the second edge portion of the second fluid control plane of the moving valve plate and extends inwardly to this from the second edge portion
Second extension.
241. valve block components described in 71 according to claim 1, which is characterized in that the fluid valve further has one the 14th
Channel, wherein the tenth four-way is set to the fixed valve plate and extends from the first fluid control plane of the fixed valve plate;The fluid valve
With first working position, second working position and a third working position, wherein when the fluid valve is in first work
When making position, the 9th channel of the fluid valve is connected with the first passage, so that first communicating passage is formed, the tenth
Channel is connected with the third channel and the Five-channel respectively, to form second communicating passage, the tenth triple channel
It is connected respectively with the 8th channel and the 12nd channel, to form a third connecting channel;When the fluid valve is in
When second working position, the 9th channel of the fluid valve is connected with the fourth lane, so that it is logical to form one the 4th connection
Road, the 11st channel are connected with the 8th channel, to form the 5th communicating passage;When the fluid valve be in this
When three working positions, the 8th channel of the fluid valve is connected with the 9th channel, so that the 6th communicating passage is formed, it should
11st channel is connected with the first passage, to form the 7th communicating passage.
The 242. valve block components according to claim 241, which is characterized in that the fluid valve further has the 4th work
Make position and the 5th working position, wherein when the fluid valve is in four working positions, the 9th channel of the fluid valve with
6th channel is connected, thus formed an eight connectivity channel, the tenth channel respectively with the 7th channel and the tenth
Four-way is connected, to form the 9th communicating passage, the 11st channel is connected with the fourth lane, to be formed
One the tenth communicating passage;When the fluid valve is in five working positions, the 9th channel of the fluid valve is logical with the 8th
Road is connected, to form the 11st communicating passage, the 11st channel of the fluid valve is connected with the third channel,
To form the 12nd communicating passage.
The 243. valve block components according to claim 242, which is characterized in that the fluid valve further has the 6th work
Make position and the 7th working position, wherein when the fluid valve is in six working positions, the 9th channel of the fluid valve with
The second channel is connected, to form a tenth tee joint channel, the 11st channel of the fluid valve is logical with the 8th
Road is connected, to form the 14th communicating passage;When the fluid valve is in seven working positions, which is somebody's turn to do
9th channel is connected with the 7th channel, to form the 15th communicating passage.
The 244. valve block components according to claim 241, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate.
The 245. valve block components according to claim 242, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When
When the fluid valve is in four working positions, the first passage, the second channel, the third channel and the 8th of the fluid valve
It is closed by the moving valve plate in channel;When the fluid valve is in five working positions, the second channel, the four-way of the fluid valve
Road and the tenth four-way are closed by the moving valve plate.
The 246. valve block components according to claim 243, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When
When the fluid valve is in four working positions, the first passage, the second channel, the third channel and the 8th of the fluid valve
It is closed by the moving valve plate in channel;When the fluid valve is in five working positions, the second channel, the four-way of the fluid valve
Road and the tenth four-way are closed by the moving valve plate;When the fluid valve is in six working positions, the fluid valve this first
Channel, the third channel and the tenth four-way are closed by the moving valve plate.
The 247. valve block components according to claim 244, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and the 8th
Channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are by this
Moving valve plate closing, the tenth triple channel of the fluid valve are connected with the second channel.
The 248. valve block components according to claim 245, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and the 8th
Channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are by this
Moving valve plate closing, the tenth triple channel of the fluid valve are connected with the second channel;When the fluid valve is in the 4th work
When position, the tenth triple channel of the fluid valve is connected with the Five-channel;It, should when the fluid valve is in five working positions
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the tenth triple channel of the fluid valve is logical with the 8th
Road is connected.
The 249. valve block components according to claim 246, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, and the 11st channel is closed by the fixed valve plate;
When the fluid valve is in second working position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate,
Tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel and the 8th
Channel is connected;When the fluid valve is in the third working position, the 6th channel and the 7th channel of the fluid valve are by this
Moving valve plate closing, the tenth triple channel of the fluid valve are connected with the second channel;When the fluid valve is in the 4th work
When position, the tenth triple channel of the fluid valve is connected with the Five-channel;It, should when the fluid valve is in five working positions
The 6th channel and the 7th channel of fluid valve are closed by the moving valve plate, and the tenth triple channel of the fluid valve is logical with the 8th
Road is connected;When the fluid valve is in six working positions, the 6th channel and the 7th channel of the fluid valve are moved by this
Valve block closing, the tenth channel of the fluid valve is connected with the 8th channel, the tenth triple channel of the fluid valve with this
Four-way is connected;When the fluid valve is in seven working positions, the first passage of the fluid valve, the third channel and should
8th channel is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the fourth lane and the tenth four-way respectively
Logical, the tenth triple channel of the fluid valve is connected with the 6th channel.
The 250. valve block components according to claim 244, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
The 251. valve block components according to claim 245, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
The 252. valve block components according to claim 246, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel closed by the moving valve plate.
The 253. valve block components according to claim 244, which is characterized in that when the fluid valve is in second working position
When, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 254. valve block components according to claim 245, which is characterized in that when the fluid valve be in second working position and
When four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 255. valve block components according to claim 246, which is characterized in that when the fluid valve be in second working position,
When the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is sealed by the moving valve plate
It closes.
256. according to claim 241,242,243,244,245,246,247,248,249,250,251,252,253,254 or
Valve block component described in 255, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, this
Four-way, the Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel and the tenth four-way
It is set to the first fluid control plane of the fixed valve plate with being spaced respectively;9th channel, the tenth channel, the 11st channel
The second fluid control plane of the moving valve plate is set to the tenth triple channel with being spaced respectively.
257. according to claim 241,242,243,244,245,246,247,248,249,250,251,252,253,254 or
Valve block component described in 255, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the tenth four-way, the 7th channel, the 6th channel, the Five-channel and the third channel
The fixed valve plate is deasil arranged in this sequence;11st channel of the fluid valve, the tenth channel, the 9th channel and
Tenth triple channel is deasil arranged in the moving valve plate with this sequence.
258. according to claim 241,242,243,244,245,246,247,248,249,250,251,252,253,254 or
Valve block component described in 255, which is characterized in that the first fluid control plane of the fixed valve plate of the fluid valve and the moving valve plate
The second fluid control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, this
Six channels, the 7th channel, the 8th channel, the 12nd channel and the tenth four-way are radially set on the fixed valve plate
The first fluid control plane, the tenth triple channel, the 9th channel and the tenth channel are radially set to being somebody's turn to do for the moving valve plate
Second fluid control plane.
259. according to claim 241,242,243,244,245,246,247,248,249,250,251,252,253,254 or
Valve block component described in 255, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III and Part IV of body control plane extend downwardly;12nd channel is from the first fluid
The second part of control plane extends downwardly;The Part V of the second channel from the first fluid control plane of the fixed valve plate
It extends downwardly;The Part VI of the fourth lane from the first fluid control plane of the fixed valve plate extends downwardly;14th
Channel is extended downwardly from the Part VII of the first fluid control plane;7th channel from the first fluid control plane this
Eight parts extend downwardly;6th channel is extended downwardly from the Part IX of the first fluid control plane;The Five-channel is certainly
The Part X of the first fluid control plane and the tenth a part extend downwardly;The third channel is controlled from the first fluid
Tenth a part in face extends downwardly;9th channel is upwardly extended from the first area of the second fluid control plane;It should
Tenth triple channel is upwardly extended from the second area of the second fluid control plane;11st channel is controlled from the second fluid
9th region in face upwardly extends;Tenth channel is from the tenth region of the second fluid control plane and the 11st region
It upwardly extends.
The 260. valve block components according to claim 259, which is characterized in that the first passage of the fluid valve, this second
Channel, the third channel, the fourth lane, the 6th channel, the 7th channel, the 8th channel and the tenth four-way difference
It is arranged on first extension of the first fluid control plane of the fixed valve plate, which is arranged on the first fluid
The first edge portion of control plane, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The stream
9th channel of body valve and the 11st channel be respectively set at the second fluid control plane of the moving valve plate this second
Extension, the tenth channel and the tenth triple channel are arranged on the second edge of the second fluid control plane of the moving valve plate
Portion simultaneously extends inwardly to second extension from the second edge portion.
261. valve block components described in 71 according to claim 1, which is characterized in that the fluid valve further has one the 14th
Channel and the tenth Five-channel, wherein the tenth four-way and the tenth Five-channel are respectively arranged on the fixed valve plate and certainly should respectively
The first fluid control plane of fixed valve plate extends;The fluid valve is with first working position, second working position and one
Third working position, wherein when the fluid valve is in first working position, the 9th channel of the fluid valve and the first passage
It is connected, to form first communicating passage, the tenth channel is connected with the third channel and the Five-channel respectively,
To form second communicating passage, the tenth triple channel is connected with the 8th channel and the 12nd channel respectively, from
And form a third connecting channel;When the fluid valve is in second working position, the 9th channel of the fluid valve with should
Fourth lane is connected, thus formed the 4th communicating passage, the 11st channel respectively with the 8th channel and the tenth
Five-channel is connected, to form the 5th communicating passage;When the fluid valve is in the third working position, the fluid valve
8th channel is connected with the 9th channel, to form the 6th communicating passage, the 11st channel respectively with this
One channel is connected with the tenth Five-channel, to form the 7th communicating passage.
The 262. valve block components according to claim 261, which is characterized in that the fluid valve further has the 4th work
Make position and the 5th working position, wherein when the fluid valve is in four working positions, the 9th channel of the fluid valve with
6th channel is connected, thus formed an eight connectivity channel, the tenth channel respectively with the 7th channel and the tenth
Four-way is connected, thus formed the 9th communicating passage, the 11st channel respectively with the fourth lane and the 15th
Channel is connected, to form the tenth communicating passage;When the fluid valve is in five working positions, which is somebody's turn to do
9th channel is connected with the 8th channel, to form the 11st communicating passage, the 11st channel of the fluid valve
It is connected respectively with the third channel and the tenth Five-channel, to form the 12nd communicating passage.
The 263. valve block components according to claim 262, which is characterized in that the fluid valve further has the 6th work
Make position and the 7th working position, wherein when the fluid valve is in six working positions, the 9th channel of the fluid valve with
The second channel is connected, to form a tenth tee joint channel, the 11st channel of the fluid valve respectively with this
Eight channels are connected with the tenth Five-channel, to form the 14th communicating passage;When the fluid valve is in the 7th work
When making position, the 9th channel of the fluid valve is connected with the 7th channel, to form the 15th communicating passage.
The 264. valve block components according to claim 261, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate.
The 265. valve block components according to claim 262, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When
When the fluid valve is in four working positions, the first passage, the second channel, the third channel and the 8th of the fluid valve
It is closed by the moving valve plate in channel;When fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane
It is closed with the tenth four-way by the moving valve plate.
The 266. valve block components according to claim 263, which is characterized in that when the fluid valve is in first working position
When, the second channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When second working position, first passage and the third channel of the fluid valve are closed by the moving valve plate;When the fluid valve is in
When the third working position, the third channel, the fourth lane and the tenth four-way of the fluid valve are closed by the moving valve plate;When
When the fluid valve is in four working positions, the first passage, the second channel, the third channel and the 8th of the fluid valve
It is closed by the moving valve plate in channel;When fluid valve is in five working positions, the second channel of the fluid valve, the fourth lane
It is closed with the tenth four-way by the moving valve plate;When the fluid valve is in six working positions, this of the fluid valve is first logical
Road, the third channel and the tenth four-way are closed by the moving valve plate.
The 267. valve block components according to claim 264, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth Five-channel
It is connected;When the fluid valve is in second working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel
It is connected with the 8th channel;When the fluid valve is in the third working position, the 6th channel and the 7th of the fluid valve
Channel is closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the second channel.
The 268. valve block components according to claim 265, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth Five-channel
It is connected;When the fluid valve is in second working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel
It is connected with the 8th channel;When the fluid valve is in the third working position, the 6th channel and the 7th of the fluid valve
Channel is closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the second channel;It is somebody's turn to do when the fluid valve is in
When four working positions, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in the 5th work
When making position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the tenth triple channel of the fluid valve
It is connected with the 8th channel.
The 269. valve block components according to claim 266, which is characterized in that when the fluid valve is in first working position
When, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the 11st channel and the tenth Five-channel
It is connected;When the fluid valve is in second working position, valve is moved by this in the 6th channel and the 7th channel of the fluid valve
Piece closing, the tenth triple channel is connected with the tenth four-way, the tenth channel of the fluid valve respectively with the second channel
It is connected with the 8th channel;When the fluid valve is in the third working position, the 6th channel and the 7th of the fluid valve
Channel is closed by the moving valve plate, and the tenth triple channel of the fluid valve is connected with the second channel;It is somebody's turn to do when the fluid valve is in
When four working positions, the tenth triple channel of the fluid valve is connected with the Five-channel;When the fluid valve is in the 5th work
When making position, the 6th channel and the 7th channel of the fluid valve are closed by the moving valve plate, the tenth triple channel of the fluid valve
It is connected with the 8th channel;When the fluid valve is in six working positions, the 6th channel and the 7th of the fluid valve
Channel is closed by the moving valve plate, and the tenth channel of the fluid valve is connected with the 8th channel, and the 13rd of the fluid valve the
Channel is connected with the fourth lane;When the fluid valve is in seven working positions, the first passage of the fluid valve, this
Triple channel and the 8th channel are closed by the moving valve plate, the tenth channel of the fluid valve respectively with the fourth lane and the tenth
Four-way is connected, and the tenth triple channel of the fluid valve is connected with the 6th channel.
The 270. valve block components according to claim 264, which is characterized in that when the fluid valve be in second working position and
When the third working position, the Five-channel of the fluid valve is closed by the moving valve plate.
The 271. valve block components according to claim 265, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position and five working positions, the Five-channel of the fluid valve is closed by the moving valve plate.
The 272. valve block components according to claim 266, which is characterized in that when the fluid valve be in second working position,
When the third working position, the 4th working position, the 5th working position, the 6th working position and seven working positions, the fluid valve
The Five-channel closed by the moving valve plate.
The 273. valve block components according to claim 264, which is characterized in that when the fluid valve is in second working position
When, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 274. valve block components according to claim 265, which is characterized in that when the fluid valve be in second working position and
When four working positions, the 12nd channel of the fluid valve is closed by the moving valve plate.
The 275. valve block components according to claim 266, which is characterized in that when the fluid valve be in second working position,
When the 4th working position, the 6th working position and seven working positions, the 12nd channel of the fluid valve is sealed by the moving valve plate
It closes.
276. according to claim 261,262,263,264,265,266,267,268,269,270,271,272,273,274 or
Valve block component described in 275, which is characterized in that the first passage of the fluid valve, the second channel, the third channel, this
Four-way, the Five-channel, the 6th channel, the 7th channel, the 8th channel, the 12nd channel, the tenth four-way
The first fluid control plane of the fixed valve plate is set to the tenth Five-channel with being spaced respectively;9th channel, the tenth are led to
Road, the 11st channel and the tenth triple channel are set to the second fluid control plane of the moving valve plate with being spaced respectively.
277. according to claim 261,262,263,264,265,266,267,268,269,270,271,272,273,274 or
Valve block component described in 275, which is characterized in that the first passage, the 8th channel and the 12nd channel of the fluid valve are somebody's turn to do
Second channel, the fourth lane, the tenth four-way, the 7th channel, the 6th channel, the Five-channel and the third channel
The fixed valve plate is deasil arranged in this sequence;11st channel of the fluid valve, the tenth channel, the 9th channel and
Tenth triple channel is deasil arranged in the moving valve plate with this sequence.
278. according to claim 261,262,263,264,265,266,267,268,269,270,271,272,273,274 or
Valve block component described in 275, which is characterized in that the first fluid control plane of the fixed valve plate of the fluid valve and the moving valve plate
The second fluid control plane is circle, wherein the first passage, the second channel, the third channel, the fourth lane, this
Six channels, the 7th channel, the 8th channel, the 12nd channel and the tenth four-way are radially set on the fixed valve plate
The first fluid control plane, the tenth triple channel, the 9th channel and the tenth channel are radially set to being somebody's turn to do for the moving valve plate
Second fluid control plane.
279. according to claim 261,262,263,264,265,266,267,268,269,270,271,272,273,274 or
Valve block component described in 275, which is characterized in that the fixed valve plate of the fluid valve have first central part, one from this
Outwardly extending first extension of one central part and one are from the outwardly extending first edge portion of the first extension, the moving valve plate
With second central part, one from outwardly extending second extension of second central part and one from second extension
Outwardly extending second edge portion, wherein the first fluid control plane of the fixed valve plate has a central part, wherein in this
Center portion point is located at first central part of the fixed valve plate, and the part quilt except the central part of the first fluid control plane
Clockwise be divided into a first part, a second part, a Part III, a Part IV, a Part V,
One Part VI, a Part VII, a Part VIII, a Part IX, a Part X and one the 11st
Part;The second fluid control plane of the moving valve plate of the fluid valve has a central area, and wherein the central area is set to
Second central part of the moving valve plate, and the part except the central area of the second fluid control plane is divided into clockwise
One first area, a second area, a third region, a fourth region, the 5th region, the 6th area
Domain, a District 7 domain, a Section Eight domain, the 9th region, the tenth region and the 11st region;Wherein should
First passage is extended downwardly from the first part of the first fluid control plane;8th channel from the fixed valve plate this is first-class
The second part, the Part III and Part IV of body control plane extend downwardly;12nd channel is from the first fluid
The second part of control plane extends downwardly;The Part V of the second channel from the first fluid control plane of the fixed valve plate
It extends downwardly;The Part VI of the fourth lane from the first fluid control plane of the fixed valve plate extends downwardly;14th
Channel is extended downwardly from the Part VII of the first fluid control plane;7th channel from the first fluid control plane this
Eight parts extend downwardly;6th channel is extended downwardly from the Part IX of the first fluid control plane;The Five-channel is certainly
The Part X of the first fluid control plane and the tenth a part extend downwardly;The third channel is controlled from the first fluid
Tenth a part in face extends downwardly;Tenth Five-channel is extended downwardly from the central part of the first fluid control plane;
9th channel is upwardly extended from the first area of the second fluid control plane;Tenth triple channel is controlled from the second fluid
The second area in face upwardly extends;11st channel from the central area of the second fluid control plane extend to this second
9th region of fluid control plane;Tenth channel is from the tenth region of the second fluid control plane and the 11st region
It upwardly extends.
The 280. valve block components according to claim 279, which is characterized in that the first passage of the fluid valve, this second
Channel, the third channel, the fourth lane, the 6th channel, the 7th channel, the 8th channel and the tenth four-way difference
It is arranged on first extension of the first fluid control plane of the fixed valve plate, which is arranged on the first fluid
The first edge portion of control plane, the 12nd channel are arranged on the first edge portion of the first fluid control plane;The stream
9th channel of body valve is arranged on second extension of the second fluid control plane of the moving valve plate, the tenth channel and
Tenth triple channel is arranged on the second edge portion of the second fluid control plane of the moving valve plate and from the second edge portion
Extend inwardly to second extension.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820826240.0U CN209041646U (en) | 2018-05-30 | 2018-05-30 | Fluid valve |
PCT/CN2019/089018 WO2019228401A1 (en) | 2018-05-30 | 2019-05-29 | Purification-softening water-treatment system, water-treatment method, and plane valve therefor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820826240.0U CN209041646U (en) | 2018-05-30 | 2018-05-30 | Fluid valve |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209041646U true CN209041646U (en) | 2019-06-28 |
Family
ID=67028708
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820826240.0U Active CN209041646U (en) | 2018-05-30 | 2018-05-30 | Fluid valve |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209041646U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019228397A1 (en) * | 2018-05-30 | 2019-12-05 | 宁波市科漫环保科技有限公司 | Purified-softened water processing system and method, and flat valve thereof |
WO2021008509A1 (en) * | 2019-07-18 | 2021-01-21 | 余姚市亚东塑业有限公司 | Water purifier and control valve for use in water purifier |
WO2021008504A1 (en) * | 2019-07-18 | 2021-01-21 | 余姚市亚东塑业有限公司 | Faucet water filter and control valve used for faucet water filter |
-
2018
- 2018-05-30 CN CN201820826240.0U patent/CN209041646U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2019228397A1 (en) * | 2018-05-30 | 2019-12-05 | 宁波市科漫环保科技有限公司 | Purified-softened water processing system and method, and flat valve thereof |
WO2021008509A1 (en) * | 2019-07-18 | 2021-01-21 | 余姚市亚东塑业有限公司 | Water purifier and control valve for use in water purifier |
WO2021008504A1 (en) * | 2019-07-18 | 2021-01-21 | 余姚市亚东塑业有限公司 | Faucet water filter and control valve used for faucet water filter |
WO2021008505A1 (en) * | 2019-07-18 | 2021-01-21 | 余姚市亚东塑业有限公司 | Faucet water purifier and filtering device for use in faucet water purifier |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN209041646U (en) | Fluid valve | |
DE69531415T2 (en) | Compartments for electrical deionization apparatus | |
ES2236377T3 (en) | DESALINATION OF WATER CURRENTS THROUGH ELECTRODIALYSIS IN FILLING CELLS. | |
CN104254721B (en) | Flow-controlled device | |
CN110550758B (en) | Purification-softening water treatment system, water treatment method and plane valve thereof | |
WO2019228398A1 (en) | Water processor and machine body thereof | |
CN212356761U (en) | Tap water purifier | |
CN100436902C (en) | Multipath control valve used in soft water treating equipment | |
CN211226632U (en) | Plane valve for purifying-softening water treatment system and valve core thereof | |
CN210193545U (en) | Water treatment system, plane valve for water treatment system and valve plate assembly of plane valve | |
CN209041647U (en) | Fluid valve and valve block component for fluid valve | |
CN110550759B (en) | Purification-softening water treatment system, water treatment method and plane valve thereof | |
KR100947761B1 (en) | Water ionizer having intergrated three way valve | |
CN211082937U (en) | Plane valve for purifying-softening water treatment system and valve plate assembly thereof | |
CN210770425U (en) | Fluid valve and valve core thereof | |
CN211226631U (en) | Plane valve for purifying-softening water treatment system and valve core thereof | |
WO2019228401A1 (en) | Purification-softening water-treatment system, water-treatment method, and plane valve therefor | |
CN209759166U (en) | Water treatment machine | |
CN110902869B (en) | Water treatment system, water treatment method and plane valve thereof | |
CN111911662A (en) | Purification-softening water treatment system, water treatment method and plane valve thereof | |
WO2019228397A1 (en) | Purified-softened water processing system and method, and flat valve thereof | |
CN110902870A (en) | Water treatment system, water treatment method and plane valve thereof | |
JPH10174973A (en) | Method for washing and sterilizing continuous water passing type electrolytic water making apparatus, electrolytic water-making apparatus equipped with mechanism executing the method and passage changeover valve device used therein | |
CN209740854U (en) | Water treatment system, plane valve for water treatment system and valve plate assembly for plane valve | |
KR20090108466A (en) | Filter tank and water purifier using the same |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |