CN212177947U - Waterway controller and waterway control valve for multifunctional water treatment system - Google Patents

Abstract

The utility model provides a waterway controller and a waterway control valve for a multifunctional water treatment system, which comprises a first connecting pipe, a second connecting pipe, a third connecting pipe, a fourth connecting pipe, a fifth connecting pipe, a sixth connecting pipe and a waterway control valve, wherein the waterway control valve comprises a valve body and a valve core, wherein the valve body of the waterway control valve is provided with a valve cavity, a first opening, a second opening, a third opening, a fourth opening, a fifth opening and a sixth opening, wherein the valve core is arranged in the valve cavity, the first connecting pipe is communicated with the first opening, the second connecting pipe is communicated with the second opening, the third connecting pipe is communicated with the third opening, the fourth connecting pipe is communicated with the fourth opening, the fifth connecting pipe is communicated with the fifth opening, and the sixth connecting pipe is communicated with the sixth opening.

Description

Waterway controller and waterway control valve for multifunctional water treatment system

Technical Field

The utility model relates to a water treatment technical field especially relates to a can realize the water route controller to the control of water processing system, especially to the raw water supply of water processing system and the control of the providing of different treatment back waters.

Background

With the increasing health concerns and concerns about water pollution, water treatment machines or systems have become common household appliances. Water treatment machines, especially household water treatment machines, such as central water purifiers, water softeners and the like are often installed in kitchens to treat water and obtain cleaner water.

To obtain water that is sufficiently clean or meets certain requirements, such as more potable water and/or softened water having a lower hardness, existing water treatment systems often have more than one filter element. For example, many households may install a prefilter upstream of the ultrafiltration water purifier to filter out larger impurities, or an activated carbon filter downstream of the ultrafiltration water purifier to improve the taste of the purified water. Or, a pre-filter is arranged at the upstream of the water softener for softening the water to remove larger impurities, and a purification filter element is further arranged to purify the water before the water is softened. However, such a water treatment machine or a water treatment system having a complex water treatment function or a multi-stage water treatment function, such as an activated carbon-ultrafiltration filtration complex water purification system, an ultrafiltration-RO membrane complex water purification system, a PP cotton-activated carbon complex water purification system, etc., often has a complex water path. For example, a water treatment system capable of providing purified water of different purification degrees, having at least one raw water (or water to be treated) line (or pipe) and two purified water lines, a water treatment system having a combined purification and softening function, having at least one raw water line, one purified water line and/or one soft water line. In order to ensure the stability, the usability and the convenience for maintenance after the fault of the water treatment system while the water treatment system can smoothly realize the multifunctional water treatment, the prior multifunctional water treatment system is mostly provided with a plurality of auxiliary control valves besides a main control valve for controlling the water flow so as to respectively control different water paths. However, the auxiliary control valve of the existing water treatment system controls the raw water path and the different water outlet paths as end control. Therefore, when a user performs maintenance of the existing water treatment system, particularly, maintenance of the control valves for controlling the flow of raw water to the respective filter cartridges to control the multistage treatment of water, he or she has to close the auxiliary control valves of all the pipes one by one, which may cause the water supply through the water treatment system to be completely shut off and cause a safety hazard. Particularly in the case of a multi-purpose water treatment system in series with the water outlet line of a kitchen or the like, the user may have to face the situation where the water supply is completely shut off and fire safety issues should the water treatment system fail.

SUMMERY OF THE UTILITY MODEL

The utility model has the main advantage that a water route controller for multi-functional water treatment system is provided, wherein this water route controller can realize respectively the control to water treatment system, especially to the raw water of water treatment system and the control of the different provision of handling back water. For example, the control unit suspends the supply of raw water to the water treatment device (or the filter element) of the water treatment system to suspend the water treatment function of the water treatment system, and forms at least one additional raw water (or water to be treated) waterway to ensure the continuous water supply of the water treatment system when the water treatment function of the water treatment system is suspended.

Another advantage of the present invention is to provide a water path controller for a multifunctional water treatment system, wherein the setting of the water path controller enables the complex connection pipe of the water treatment system using the water path controller to be integrated, and the single control valve of the accessible realizes the synchronous control of the on or off of the complex connection pipe, thereby improving the degree of integration of the whole water treatment system and improving the user's use experience.

Another advantage of the present invention is to provide a water path controller for a multi-functional water treatment system, wherein the water path controller has a simple structure, is convenient to use, and is easy to manufacture. In addition, the water path controller can be further detachably arranged between the main control valve of the water treatment system and the terminal control (valve) of the water treatment system, thereby being conveniently used for the existing water treatment system.

Another advantage of the present invention is to provide a waterway control valve for a multi-functional water treatment system, wherein the waterway control valve is adapted to switch on a plurality of connection pipes of the multi-functional water treatment system under synchronous control. Especially, under different working states, the selective conduction of a plurality of connecting pipes of the multifunctional water treatment system is controlled.

Another advantage of the present invention is to provide a water control valve for a multifunctional water treatment system, wherein the valve core of the water control valve can be switched to form different communication channels under different working conditions, thereby realizing different communication between the connecting pipes of the water control valve.

The other advantages and features of the invention will be fully apparent from the following detailed description and realized by means of the instruments and combinations particularly pointed out in the appended claims.

According to the utility model discloses an aspect can realize aforementioned advantage and other advantages the utility model is used for multi-functional water treatment system's water route controller includes:

a first connecting pipe;

a second connection pipe;

a third connecting pipe;

a fourth connecting pipe;

a fifth connecting pipe;

a sixth connecting pipe; and

the water path control valve comprises a valve body and a valve core, wherein the valve body of the water path control valve is provided with a valve cavity, a first opening, a second opening, a third opening, a fourth opening, a fifth opening and a sixth opening, the valve core is arranged in the valve cavity, the first connecting pipe is communicated with the first opening, the second connecting pipe is communicated with the second opening, the third connecting pipe is communicated with the third opening, the fourth connecting pipe is communicated with the fourth opening, the fifth connecting pipe is communicated with the fifth opening, and the sixth connecting pipe is communicated with the sixth opening.

Furthermore, the waterway control valve is a planar valve, wherein the valve core comprises a fixed valve plate and a movable valve plate, the fixed valve plate is provided with a first fluid control surface, the movable valve plate is provided with a second fluid control surface, the waterway control valve is provided with a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel and an eighth channel, and the second channel, the third channel, the fourth channel, the fifth channel and the sixth channel are respectively arranged on the fixed valve plate and respectively extend from the first fluid control surface of the fixed valve plate; the first channel, the seventh channel and the eighth channel are respectively arranged on the movable valve plate and respectively extend from the second fluid control surface of the movable valve plate, wherein the first opening of the valve body is communicated with the first channel, the second channel is communicated with the second opening, the third channel is communicated with the third opening, the fourth channel is communicated with the fourth opening, the fifth channel is communicated with the fifth opening, and the sixth channel is communicated with the sixth opening.

Further, when the waterway controller is in a first working state, the first channel of the waterway control valve is communicated with the second channel, the seventh channel of the waterway control valve is respectively communicated with the third channel and the fourth channel, and the eighth channel of the waterway control valve is respectively communicated with the fifth channel and the sixth channel.

Furthermore, when the waterway controller is in a second working state, the first channel and the fourth channel of the waterway control valve are communicated.

Further, when the waterway controller is in the second working state, the first channel of the waterway control valve is communicated with the sixth channel.

Further, the first passage and the first opening are both in communication with the valve chamber, thereby placing the first passage and the first opening in communication.

Further, when the waterway controller is in the second working state, the second channel, the third channel and the fifth channel are separated from the valve cavity of the waterway control valve and the first channel of the waterway control valve by the movable valve plate of the waterway control valve.

Further, the second connecting pipe, the third connecting pipe and the fifth connecting pipe are respectively disposed at the same side of the valve body of the waterway control valve of the waterway controller, and the first connecting pipe, the fourth connecting pipe and the sixth connecting pipe are respectively disposed at the other same side of the valve body of the waterway control valve of the waterway controller.

According to another aspect of the utility model, the utility model discloses a water route control valve for multi-functional water processing system is further provided, it includes:

a valve body; and

a valve cartridge, wherein the valve body of the waterway control valve has a valve chamber, a first opening, a second opening, a third opening, a fourth opening, a fifth opening, and a sixth opening, wherein the valve cartridge is disposed within the valve chamber.

Further, the waterway control valve is a planar valve, wherein the valve core comprises a fixed valve plate and a movable valve plate, wherein the fixed valve plate has a first fluid control surface, the movable valve plate has a second fluid control surface, wherein the second fluid control surface of the movable valve plate and the first fluid control surface of the fixed valve plate are arranged to face each other, wherein the waterway control valve has a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel and an eighth channel, wherein the second channel, the third channel, the fourth channel, the fifth channel and the sixth channel are respectively arranged on the fixed valve plate and respectively extend from the first fluid control surface of the fixed valve plate; the first channel, the seventh channel and the eighth channel are respectively arranged on the movable valve plate and respectively extend from the second fluid control surface of the movable valve plate, wherein the first opening of the valve body is communicated with the valve cavity, the first channel is communicated with the valve cavity, the second channel is communicated with the second opening, the third channel is communicated with the third opening, the fourth channel is communicated with the fourth opening, the fifth channel is communicated with the fifth opening, and the sixth channel is communicated with the sixth opening.

Furthermore, the movable valve plate of the waterway control valve is rotatably disposed on the fixed valve plate, so that the waterway control valve has a first working position, when the waterway control valve is located at the first working position, the first channel of the waterway control valve is communicated with the second channel, the seventh channel of the waterway control valve is respectively communicated with the third channel and the fourth channel, and the eighth channel of the waterway control valve is respectively communicated with the fifth channel and the sixth channel.

Furthermore, when the waterway control valve is positioned at a second working position, the first channel of the waterway control valve is communicated with the fourth channel.

Further, when the waterway control valve is in the second working position, the first channel of the waterway control valve is communicated with the sixth channel.

Further, the first passage and the first opening are both in communication with the valve chamber, thereby placing the first passage and the first opening in communication.

Further, when the waterway control valve is in the second working position, the second channel, the third channel and the fifth channel are separated from the valve cavity of the waterway control valve and the first channel of the waterway control valve by the movable valve plate of the waterway control valve.

Further, the second opening, the third opening and the fifth opening are respectively disposed on the same side of the valve body of the waterway control valve, and the first opening, the fourth opening and the sixth opening are respectively disposed on the other same side of the valve body of the waterway control valve.

Further advantages and advantages of the invention will become apparent from an understanding of the ensuing description and drawings.

These and other advantages and features of the invention will be more fully apparent from the following detailed description, the accompanying drawings and the claims.

Drawings

Fig. 1 is a perspective view of a waterway controller for a multifunctional water treatment system according to a first embodiment of the present invention, wherein the waterway controller is connected to a main control valve of the water treatment system.

Fig. 2 is a perspective view of an exemplary main control valve of the water treatment system according to the first embodiment of the present invention.

Fig. 3 is another perspective view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 4 is another perspective view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 5 is an assembly view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 6 is a top view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 7 is another top view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 8 is a sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 9 is another top view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 10 is another top view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 11 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller controls the supply of water to the multi-functional water treatment system.

Fig. 12 is another sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller stops supplying water to the multi-functional water treatment system, and a raw water waterway is formed.

Fig. 13 is a perspective view of the fixed valve plate of the waterway control valve for the waterway controller of the multifunctional water treatment system according to the first embodiment of the present invention.

Fig. 14 is a perspective view of the movable valve plate of the waterway control valve for the waterway controller of the multifunctional water treatment system according to the first embodiment of the present invention.

Fig. 15 is a perspective view of the movable valve plate of the waterway control valve for the waterway controller of the multifunctional water treatment system according to the first embodiment of the present invention.

Fig. 16 is another plan view of the fixed valve plate of the waterway control valve for the waterway controller of the multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 17 is an isometric view of the fixed valve plate of the waterway control valve for the waterway controller of the multifunctional water treatment system according to the first embodiment of the present invention.

Fig. 18 is another plan view of the movable valve plate of the waterway control valve for the waterway controller of the multi-functional water treatment system according to the first embodiment of the present invention.

Fig. 19 is an isometric view of the movable valve plate of the waterway control valve for the waterway controller of the multifunctional water treatment system according to the first embodiment of the present invention.

Fig. 20 is the above-mentioned basis the utility model discloses a water route control valve for multi-functional water processing system's water route controller's water route control valve's the passageway intercommunication sketch map of movable valve piece and fixed valve piece, wherein the utility model discloses water route control valve is in a first work position.

Fig. 21 is the above-mentioned basis the utility model discloses a water route control valve for multi-functional water processing system's water route controller's water route control valve's the passageway intercommunication sketch map of movable valve piece and fixed valve piece, wherein the utility model discloses water route control valve is in a second work position.

Fig. 22 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller is shown in the first working position.

Fig. 23 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller is in the first working position.

Fig. 24 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller of the present invention is shown in the first working position.

Fig. 25 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller of the present invention is shown in the second working position.

Fig. 26 is another cross-sectional view of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller is in the second working position.

Fig. 27 shows according to the utility model discloses a waterway controller for multi-functional water treatment system of second embodiment, wherein this figure is shown the utility model discloses waterway controller is connected with this water treatment system's main control valve.

Fig. 28 shows the above waterway controller for a multifunctional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in the first working position.

Fig. 29 shows the above-mentioned waterway controller for a multifunctional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in its first working position.

Fig. 30 shows the above-mentioned waterway controller for a multifunctional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in its first working position.

Fig. 31 shows the above waterway controller for a multifunctional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in the second working position.

Fig. 32 shows the above-mentioned waterway controller for a multifunctional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in its first working position.

Fig. 33 is a sectional view of an alternative embodiment of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller of the present invention is shown in the second working position.

Fig. 34 is another sectional view of an alternative embodiment of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller of the present invention is shown in the second working position.

Fig. 35 is another sectional view of an alternative embodiment of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller is in its second working position.

Fig. 36 is another sectional view of an alternative embodiment of the waterway controller for a multi-functional water treatment system according to the first embodiment of the present invention, wherein the waterway control valve of the waterway controller of the present invention is shown in the second working position.

Fig. 37 is a cross-sectional view of an alternative embodiment of the waterway controller for a multi-functional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is in the second working position.

Fig. 38 is another sectional view of an alternative embodiment of a waterway controller for a multi-functional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is shown in the second operating position.

Fig. 39 is another sectional view of an alternative embodiment of a waterway controller for a multi-functional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is shown in the second working position.

Fig. 40 is another sectional view of an alternative embodiment of a waterway controller for a multi-functional water treatment system according to the second embodiment of the present invention, wherein the waterway control valve of the waterway controller is shown in the second working position.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 26 of the drawings, a waterway controller according to a first embodiment of the present invention is illustrated, wherein the waterway controller includes a waterway control valve 10 and a set of connection pipes 20, wherein the waterway control valve 10 includes a valve body 11 and a valve core 11 ', wherein the valve body 11 of the waterway control valve 10 has a valve cavity 110, a first opening 1101, a second opening 1102, a third opening 1103, a fourth opening 1104, a fifth opening 1105 and a sixth opening 1106, the set of connection pipes 20 includes a first connection pipe 21, a second connection pipe 22, a third connection pipe 23, a fourth connection pipe 24, a fifth connection pipe 25 and a sixth connection pipe 26, wherein the valve core 11' is disposed in the valve cavity 110, and the first connection pipe 21, the second connection pipe 22 and the sixth connection pipe 26, The third connection pipe 23, the fourth connection pipe 24, the fifth connection pipe 25 and the sixth connection pipe 26 are connected to the valve body 11 of the waterway control valve 10, respectively. As shown in fig. 1 to 12 of the drawings, further, the first connecting pipe 21 of the connecting pipe set 20 of the waterway controller of the present invention is communicated with the first opening 1101, the second connecting pipe 22 is communicated with the second opening 1102, the third connecting pipe 23 is communicated with the third opening 1103, the fourth connecting pipe 24 is communicated with the fourth opening 1104, the fifth connecting pipe 25 is communicated with the fifth opening 1105, and the sixth connecting pipe 26 is communicated with the sixth opening 1106.

As shown in fig. 1 to 12 of the drawings, the first connection pipe 21 of the connection pipe set 20 of the waterway controller according to the first embodiment of the present invention forms a first water flow channel 210 communicated with the first opening 1101, the second connection pipe 22 forms a second water flow channel 220 communicated with the second opening 1102, the third connection pipe 23 forms a third water flow channel 230 communicated with the third opening 1103, the fourth connection pipe 24 forms a fourth water flow channel 240 communicated with the fourth opening 1104, the fifth connection pipe 25 forms a fifth water flow channel 250 communicated with the fifth opening 1105, and the sixth connection pipe 26 forms a sixth water flow channel 260 communicated with the sixth opening 1106.

As shown in fig. 1 and 2 of the drawings, it can be understood that the second connection pipe 22 of the waterway controller according to the first embodiment of the present invention is in communication with the first interface 301 (which may be regarded as a water inlet of the main control valve 30) of the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the third connection pipe 23 is in communication with the second interface 302 (which may be regarded as a water outlet of the main control valve 30) of the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the fifth connection pipe 25 is in communication with the third interface 303 (which may be regarded as another water outlet of the main control valve 30) of the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the first connection pipe 21 of the waterway controller is in communication with a water source (or a raw water inlet) of the multi-functional water treatment system, and the fourth connection pipe 24 is in communication with a water outlet of the exemplary multi-functional water treatment system of the present invention, the sixth connecting pipe 26 is connected to another water outlet of the multi-functional water treatment system of the present invention. Therefore, the utility model discloses the both ends of this first connecting pipe 21 of water route controller are linked together with this first opening 1101 of this valve body 11 of this water route control valve 10 and this multi-functional water processing system's water inlet (or raw water source) respectively, and the both ends of this fourth connecting pipe 24 respectively with this fourth opening 1104 of this valve body 11 of this water route control valve 10 with the utility model discloses a delivery port of exemplary multi-functional water processing system is linked together, this sixth connecting pipe 26's both ends respectively with this sixth opening 1106 of this valve body 11 of this water route control valve 10 with the utility model discloses another delivery port of exemplary multi-functional water processing system is linked together. Correspondingly, the utility model discloses exemplary multi-functional water processing system can control raw water (or pending water) and flow to its first interface 301 through this first connecting pipe 21, and pending water is by the utility model discloses after exemplary multi-functional water processing system handles, can generate two kinds of different treatment back waters, a treatment back water flows to this third connecting pipe 23 through the second interface 302 of this main control valve 30, and further flows to through this fourth connecting pipe 24 the utility model discloses a delivery port of exemplary multi-functional water processing system, another kind of treatment back water flows to this fifth connecting pipe 25 through the third interface 303 of this main control valve 30, and further flows to through this sixth connecting pipe 26 another delivery port of the exemplary multi-functional water processing system. Therefore, the first connecting pipe 21, the second connecting pipe 22, the third connecting pipe 23, the fourth connecting pipe 24, the fifth connecting pipe 25 and the sixth connecting pipe 26 all have one end disposed on the valve body 11 of the waterway control valve 10 of the waterway controller of the present invention. In other words, one end of the first connection pipe 21, one end of the second connection pipe 22, one end of the third connection pipe 23, one end of the fourth connection pipe 24, one end of the fifth connection pipe 25, and one end of the sixth connection pipe 26 are respectively disposed at the valve body 11 of the waterway control valve 10.

As shown in fig. 1 to 12 of the drawings, the second connecting pipe 22, the third connecting pipe 23 and the fifth connecting pipe 25 of the connecting pipe set 20 of the waterway controller according to the first embodiment of the present invention are all disposed at the same side of the valve body 11 of the waterway control valve 10 of the waterway controller, and the first connecting pipe 21, the fourth connecting pipe 24 and the sixth connecting pipe 26 are all disposed at the other side of the valve body 11 of the waterway control valve 10 of the waterway controller. It is to be understood that the second connection pipe 22, the third connection pipe 23 and the fifth connection pipe 25 are provided at the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the first connecting pipe 21, the fourth connecting pipe 24 and the sixth connecting pipe 26 are respectively communicated with a raw water source, one water outlet of the exemplary multifunctional water treatment system of the present invention and the other water outlet of the exemplary multifunctional water treatment system of the present invention, the second connection pipe 22, the third connection pipe 23 and the fifth connection pipe 25 are respectively disposed at the same side of the valve body 11 of the waterway control valve 10 of the waterway controller, this first connecting pipe 21, this fourth connecting pipe 24 and this sixth connecting pipe 26 are set up respectively in this water route controller's this water route control valve 10 another homonymy of this valve body 11, and are convenient the utility model discloses the connection and the integration of the pipeline of exemplary multi-functional water processing system. Preferably, the second connection pipe 22, the third connection pipe 23 and the fifth connection pipe 25 are respectively disposed at one side of the valve body 11 of the waterway control valve 10 of the waterway controller; the first connecting pipe 21, the fourth connecting pipe 24 and the sixth connecting pipe 26 are respectively disposed at the opposite sides of the valve body 11 of the waterway control valve 10 of the waterway controller, so as to facilitate the connection and integration of the pipelines of the exemplary multifunctional water treatment system of the present invention. More preferably, the second opening 1102, the third opening 1103 and the fifth opening 1105 of the valve body 11 of the waterway control valve 10 are respectively disposed on the same side of the valve body 11 of the waterway control valve 10, and the first opening 1101, the fourth opening 1104 and the sixth opening 1106 are respectively disposed on the other same side of the valve body 11 of the waterway control valve 10 of the waterway controller.

As shown in fig. 1 to 26 of the drawings, the waterway controller according to the first embodiment of the present invention has a first operating state, wherein when the waterway controller is in the first operating state, the valve core 11' of the waterway control valve 10 forms a first communicating channel 1001 respectively communicating with the first opening 1101 and the second opening 1102 of the valve body 11, a second communicating channel 1002 respectively communicating with the third opening 1103 and the fourth opening 1104 of the valve body 11, and a third communicating channel 1003 respectively communicating with the fifth opening 1105 and the sixth opening 1106 of the valve body 11. In other words, when the waterway controller is in the first operating state, the valve core 11' of the waterway control valve 10 forms the first communicating channel 1001 respectively communicated with the first connecting pipe 21 and the second connecting pipe 22, the second communicating channel 1002 respectively communicated with the third connecting pipe 23 and the fourth connecting pipe 24, and the third communicating channel 1003 respectively communicated with the fifth connecting pipe 25 and the sixth connecting pipe 26, so that the water to be treated can be supplied to the exemplary main control valve 30 of the exemplary multifunctional water treatment system through the first connecting pipe 21, the first communicating channel 1001 and the second connecting pipe 22, and the water to be treated flows to the third connecting pipe 23 through the second port 302 of the main control valve 30 and further flows to the exemplary multifunctional water treatment site through the second communicating channel 1002 and the fourth connecting pipe 24 To manage a water outlet of the system, another treated water flows to the fifth connecting pipe 25 through the third interface 303 of the main control valve 30, and further flows to another water outlet of the exemplary multifunctional water treatment system through the third communicating channel 1003 and the sixth connecting pipe 26. Therefore, when the waterway controller according to the first embodiment of the present invention is in the first operating state, the first connecting pipe 21, the first communicating channel 1001 and the second connecting pipe 22 form a raw water waterway for providing water to be treated (or raw water) to a water treatment device of a water treatment system, such as a filter element; the third connection pipe 23, the second communication passage 1002 and the fourth connection pipe 24 form a water supply path for treated water to flow out; the fifth connecting pipe 25, the third communicating passage 1003 and the sixth connecting pipe 26 form another water supply path for treated water to flow out.

As shown in fig. 1 to 26 of the drawings, the waterway controller according to the first embodiment of the present invention further has a second operating state, wherein when the waterway controller is in the second operating state, the valve core 11' of the waterway control valve 10 forms a fourth communicating channel 1004 respectively communicating with the first opening 1101 and the fourth opening 1104 of the valve body 11. In other words, when the waterway controller is in the second operation state, the valve core 11' of the waterway control valve 10 forms the fourth communication channel 1004 which is respectively communicated with the first connection pipe 21 and the fourth connection pipe 24, so that the water to be treated can pass through the first connection pipe 21, the fourth communication channel 1004 and the fourth connection pipe 24 and flow out through the fourth connection pipe 24. Therefore, when the waterway controller according to the first embodiment of the present invention is in the second operation state, the first connection pipe 21, the fourth communication channel 1004 and the fourth connection pipe 24 form a raw water waterway for providing water (or raw water) to be treated.

As shown in fig. 1 to 26 of the drawings, further, when the waterway controller is in the second operating state, the valve core 11' of the waterway control valve 10 further forms a fifth communication channel 1005 communicated with the first opening 1101 and the sixth opening 1106 of the valve body 11, respectively. In other words, when the waterway controller is in the second operation state, the valve core 11' of the waterway control valve 10 further forms the fifth communication channel 1005 communicated with the first connection pipe 21 and the sixth connection pipe 26, respectively, so that the water to be treated can pass through the first connection pipe 21, the fifth communication channel 1005 and the sixth connection pipe 26 and flow out through the sixth connection pipe 26. Therefore, when the waterway controller according to the first embodiment of the present invention is in the second operation state, the first connecting pipe 21, the fifth communicating channel 1005 and the sixth connecting pipe 26 further form another raw water waterway for providing water (or raw water) to be treated.

As shown in fig. 1 to 26 of the drawings, the waterway control valve 10 of the waterway controller according to the first embodiment of the present invention is a planar valve, wherein the valve core 11' includes a fixed valve plate 12 and a movable valve plate 13, the fixed valve plate 12 has a first fluid control surface 120, the movable valve plate 13 has a second fluid control surface 130, wherein the movable valve plate 13 is rotatably disposed on the fixed valve plate 12, wherein the second fluid control surface 130 of the movable valve plate 13 and the first fluid control surface 120 of the fixed valve plate 12 are disposed opposite to each other, wherein the waterway control valve 10 has a first passage 101, a second passage 102, a third passage 103, a fourth passage 104, a fifth passage 105, a sixth passage 106, a seventh passage 107 and an eighth passage 108, wherein the second passage 102, the third passage 103, the fourth passage 104, the fifth passage 105, the sixth passage 106, the seventh passage 107 and the eighth passage 108, The fifth channel 105 and the sixth channel 106 are respectively disposed on the fixed valve plate 12 and respectively extend from the first fluid control surface 120 of the fixed valve plate 12; the first channel 101, the seventh channel 107, and the eighth channel 108 are respectively disposed on the movable valve plate 13 and respectively extend from the second fluid control surface 130 of the movable valve plate 13, wherein the first channel 101 is communicated with the first opening 1101, the second channel 102 is communicated with the second opening 1102, the third channel 103 is communicated with the third opening 1103, the fourth channel 104 is communicated with the fourth opening 1104, the fifth channel 105 is communicated with the fifth opening 1105, and the sixth channel 106 is communicated with the sixth opening 1106. Preferably, the first passage 101 and the first opening 1101 are both in communication with the valve chamber 110, such that the first passage 101 is in communication with the first opening 1101 through the valve chamber 110. More preferably, the seventh channel 107 and the eighth channel 108 are both blind holes disposed on the second fluid control surface 130 of the movable valve plate 13.

As shown in fig. 1 to 26 of the drawings, the movable valve plate 13 of the waterway controller 10 according to the first embodiment of the present invention can rotate relative to the fixed valve plate 12, so that the waterway control valve 10 has a first working position, wherein when the waterway control valve 10 is in the first working position, the first channel 101 of the waterway control valve 10 is communicated with the second channel 102, so as to form the first communicating channel 1001 respectively communicated with the first opening 1101 and the second opening 1102 of the valve body 11, the seventh channel 107 of the waterway control valve 10 is communicated with the third channel 103 and the fourth channel 104, so as to form the second communicating channel 1002 respectively communicated with the third opening 1103 and the fourth opening 1104, the eighth channel 108 of the waterway control valve 10 is respectively communicated with the fifth channel 105 and the sixth channel 106, thereby forming the third communicating passage 1003 communicating with the fifth opening 1105 and the sixth opening 1106, respectively. In other words, when the waterway controller is in the first operating state, the movable valve plate 13 and the fixed valve plate 12 of the waterway control valve 10 form the first communicating channel 1001 respectively communicated with the first connecting pipe 21 and the second connecting pipe 22, form the second communicating channel 1002 respectively communicated with the third connecting pipe 23 and the fourth connecting pipe 24, and form the third communicating channel 1003 respectively communicated with the fifth connecting pipe 25 and the sixth connecting pipe 26, so that the water to be treated can be provided to the exemplary main control valve 30 of the exemplary multi-functional water treatment system through the first connecting pipe 21, the first communicating channel 1001 and the second connecting pipe 22, and a treated water obtained after the water to be treated is treated by the exemplary multi-functional water treatment system of the present invention flows to the third connecting pipe 23 through the second port 302 of the main control valve 30, and further flows to a water outlet of the exemplary multifunctional water treatment system through the second communicating channel 1002 and the fourth connecting pipe 24, the other treated water flows to the fifth connecting pipe 25 through the third interface 303 of the main control valve 30, and further flows to another water outlet of the exemplary multifunctional water treatment system through the third communicating channel 1003 and the sixth connecting pipe 26. Correspondingly, when according to the utility model discloses this water route control valve 10 of this water route controller of first embodiment is in this first workstation, according to the utility model discloses this water route controller of first embodiment is in its first operating condition.

As shown in fig. 1 to 26 of the drawings, the movable valve plate 13 of the waterway control valve 10 of the waterway controller according to the first embodiment of the present invention can rotate relative to the fixed valve plate 12, so that the waterway control valve 10 further has a second working position, wherein when the waterway control valve 10 is located at the second working position, the first channel 101 of the waterway control valve 10 is communicated with the fourth channel 104, so as to form the fourth communicating channel 1004 respectively communicated with the first opening 1101 and the fourth opening 1104 of the valve body 11. In other words, when the waterway controller is in the second operation state, the movable plate 13 and the fixed plate 12 of the waterway control valve 10 form the fourth communication channel 1004 which is respectively communicated with the first connection pipe 21 and the fourth connection pipe 24, so that the water to be treated can pass through the first connection pipe 21, the fourth communication channel 1004 and the fourth connection pipe 24 and flow out through the fourth connection pipe 24. Therefore, when the waterway controller according to the first embodiment of the present invention is in the second operation state, the first connection pipe 21, the fourth communication channel 1004 and the fourth connection pipe 24 form a raw water waterway for providing water (or raw water) to be treated. As shown in fig. 1 to 26 of the drawings, further, when the waterway control valve 10 is in the second working position, the first channel 101 of the waterway control valve 10 is communicated with the sixth channel 106, so as to form the fifth communication channel 1005 communicated with the first opening 1101 and the sixth opening 1106 of the valve body 11 respectively. In other words, when the waterway controller is in the second operating state, the movable valve plate 13 and the fixed valve plate 12 of the waterway control valve 10 further form the fifth communication channel 1005 communicated with the first connection pipe 21 and the sixth connection pipe 26, respectively, so that the water to be treated can pass through the first connection pipe 21, the fifth communication channel 1005 and the sixth connection pipe 25 and flow out through the sixth connection pipe 26. Therefore, when the waterway controller according to the first embodiment of the present invention is in the second operation state, the first connecting pipe 21, the fifth communicating channel 1005 and the sixth connecting pipe 26 further form another raw water waterway for providing water (or raw water) to be treated. It can be understood that, when the waterway controller according to the first embodiment of the present invention is in the second operating state, the first channel 101, the fourth channel 104 and the sixth channel 106 of the waterway control valve 10 form a three-way structure. Correspondingly, when according to the utility model discloses this water route control valve 10 of this water route controller of first embodiment is in this second workstation, according to the utility model discloses this water route controller of first embodiment is in its second operating condition. Preferably, when the waterway control valve 10 is in the second working position, the seventh channel 107 of the waterway control valve 10 is respectively communicated with the second channel 102 and the fifth channel 105, and the eighth channel 108 of the waterway control valve 10 is respectively communicated with the second channel 102 and the third channel 103. It can be understood that, when the waterway control valve 10 is at the second working position, the movable valve plate 13 of the waterway control valve 10 separates the second channel 102, the third channel 103 and the fifth channel 105 from the valve cavity 110 of the waterway control valve 10 and the first channel 101 of the waterway control valve 10, so that raw water or water to be treated cannot be provided to the main control valve 30 of the multifunctional water treatment system of the present invention.

As shown in fig. 11 and 22 to 24 of the drawings, when the waterway controller according to the first embodiment of the present invention is in the first operating state, the first connecting pipe 21, the first communicating channel 1001 and the second connecting pipe 22 of the waterway controller form a waterway to be treated, the third connecting pipe 23, the second communicating channel 1002 and the fourth connecting pipe 24 form a waterway after treatment, the fifth connecting pipe 25, the third communicating channel 1003 and the sixth connecting pipe 26 form another waterway after treatment, so as to allow the water to be treated to flow from the first connecting pipe 21 and flow to the exemplary main control valve 30 of the exemplary water treatment system of the present invention through the first communicating channel 1001 and the second connecting pipe 22, and flow to the corresponding water treatment device, such as a purification cartridge or a softening cartridge, is controlled through the main control valve 30, and two kinds of treated water obtained by the treatment are guided through the main control valve 30, and respectively flow to treated water paths, one of which is supplied through the third connection pipe 23, the second communication passage 1002 and the fourth connection pipe 24, and the other of which is supplied through the fifth connection pipe 25, the third communication passage 1003 and the sixth connection pipe 26.

As shown in fig. 12, 25 and 26 of the drawings, further, when the waterway controller according to the first embodiment of the present invention is in the second operating state, the first connecting pipe 21, the fourth communicating channel 1004 and the fourth connecting pipe 24 of the waterway control valve 10 form a bypass waterway, and the first connecting pipe 21, the fifth communicating channel 1005 and the sixth connecting pipe 26 form another bypass waterway, so as to allow the water to be treated to flow in from the first connecting pipe 21, flow out through the fourth communicating channel 1004, the fourth connecting pipe 24 and/or flow out through the fifth communicating channel 1005 and the sixth connecting pipe 26 and be provided. Therefore, the utility model discloses water route controller can ensure that corresponding water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water to be provided through water processing system.

As shown in fig. 33 and fig. 34 of the drawings, optionally, when the waterway controller of the present invention is in the first working state, raw water or water to be treated can also flow in from the fourth connecting pipe 24, and flow to the main control valve 30 of the water treatment system through the second communicating channel 1002 and the third connecting pipe 23, and flow to the corresponding water treatment device, such as a purifying filter element or a softening filter element, through the main control valve 30, two kinds of treated water obtained by treating water to be treated are guided by the main control valve 30, flow to the second connecting pipe 22 and the fifth connecting pipe 25, and then flow out through the first communicating channel 1001 and the first connecting pipe 21, the third communicating channel 1003 and the sixth connecting pipe 26, respectively. At this moment, the utility model discloses this third connecting pipe 23 of water route controller is linked together with this first interface 301 of this multi-functional water processing system, and this second connecting pipe 22 and this fifth connecting pipe 25 are linked together with this second interface 302 and this third interface 303 of this multi-functional water processing system respectively. Correspondingly, when the waterway controller of the present invention is in the second operating state, the raw water or the water to be treated flows in from the fourth connecting tube 24, and then flows to the first connecting tube 21 and the sixth connecting tube 26 respectively. In other words, the fourth channel 104 of the waterway control valve 10 of the waterway controller of the present invention is communicated with the first channel 101 to form a fourth communicating channel 1004B respectively communicated with the fourth opening 1104 and the first opening 1101 of the waterway control valve 10, so that the raw water or the water to be treated can flow from the fourth connecting pipe 24 to the first connecting pipe 21 and be supplied through the corresponding pipeline. Further, when the utility model discloses water route controller is in this second operating condition, the utility model discloses this fourth passageway 104 and this sixth passageway 106 of this water route control valve 10 of water route controller are linked together with this first passageway 101 respectively to form a fifth intercommunication passageway 1005B that is linked together with this fourth opening 1104 and this sixth opening 1106 of this water route control valve 10 respectively, thereby make raw water or pending water can flow to this sixth connecting pipe 26 from this fourth connecting pipe 24, and be provided through corresponding pipeline. Therefore, the utility model discloses water route controller can ensure that corresponding water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water to be provided through water processing system.

As shown in fig. 35 and fig. 36 of the drawings, optionally, when the waterway controller of the present invention is in the first working state, the water to be treated can also flow into the sixth connecting pipe 26, and flow into the main control valve 30 of the water treatment system through the third communicating channel 1003 and the fifth connecting pipe 25, and flow into the corresponding water treatment device through the main control valve 30, such as a purifying filter element or a softening filter element, two kinds of treated water obtained by treating the water to be treated are guided by the main control valve 30, flow into the second connecting pipe 22 and the third connecting pipe 23, and then flow out through the first communicating channel 1001 and the first connecting pipe 21, the second communicating channel 1002 and the fourth connecting pipe 24, respectively. At this moment, the utility model discloses this fifth connecting pipe 25 of water route controller is linked together with this first interface 301 of this multi-functional water processing system, and this second connecting pipe 22 and this third connecting pipe 23 are linked together with this second interface 302 and this third interface 303 of this multi-functional water processing system respectively. Correspondingly, when the waterway controller of the present invention is in the second operating state, the raw water or the water to be treated flows in from the sixth connecting pipe 26 and then flows to the first connecting pipe 21 and the fourth connecting pipe 24, respectively. In other words, the sixth channel 106 of the waterway control valve 10 of the waterway controller of the present invention is communicated with the first channel 101 to form a fourth communicating channel 1004C respectively communicated with the sixth opening 1106 and the first opening 1101 of the waterway control valve 10, so that the raw water or the water to be treated can flow from the sixth connecting pipe 26 to the first connecting pipe 21 and be supplied through the corresponding pipeline. Further, when the utility model discloses water route controller is in this second operating condition, the utility model discloses this sixth passageway 106 and this fourth passageway 104 of this water route control valve 10 of water route controller are linked together with this first passageway 101 respectively to form a fifth intercommunication passageway 1005C that is linked together with this sixth opening 1106 and this fourth opening 1104 of this water route control valve 10 respectively, thereby make raw water or pending water can flow to this fourth connecting pipe 24 from this sixth connecting pipe 26, and be provided through corresponding pipeline. Therefore, the utility model discloses water route controller can ensure that corresponding water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water to be provided through water processing system.

As shown in fig. 4 and 5 of the drawings, the waterway controller according to the first embodiment of the present invention further includes a first flow meter 51, wherein the first flow meter 51 is disposed at the fifth connecting pipe 25 of the waterway controller to measure (or detect) water, such as softened water, flowing through the fifth connecting pipe 25 when the waterway controller is in the first operating state. Optionally, the first flow meter 51 is disposed on the sixth connection pipe 26 of the waterway controller to measure the water flowing through the sixth connection pipe 26 when the waterway controller is in the first operation state. Preferably, the first flow meter 51 is a turbine flow meter. Optionally, the first flow meter 51 is disposed at the second connection pipe 22 of the waterway controller to measure water flowing through the second connection pipe 22. It is to be understood that the first flow meter 51 may be any flow meter suitable for measuring water flowing through the fifth connection pipe 25 or the sixth connection pipe 26. Preferably, the first flow meter 51 is a turbine flow meter comprising a turbine 511 and a sensor 512 adapted to sense turbine rotation. As shown in fig. 4 and 5 of the drawings, further, the waterway controller according to the first embodiment of the present invention includes a second flow meter 52, wherein the second flow meter 52 is disposed at the third connecting pipe 23 of the waterway controller, so as to measure (or detect) water flowing through the third connecting pipe 23 when the waterway controller is in the first operating state. Preferably, the second flow meter 52 is a turbine flow meter that includes a turbine 521 and a sensor 522 adapted to sense turbine rotation.

The utility model discloses water route controller can ensure that water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water (water or pending water after handling) to be provided through water processing system (or this water route controller). In other words, when the water treatment system is switched to treat the water to be treated, the water path controller of the utility model can ensure the formation and the continuity of the water path of the water to be treated and the water path of the treated water; when water treatment system is switched over and is handled in order to stop pending water, the utility model discloses water route controller cuts off pending water route and each processing back water route simultaneously to form a pending water supply water route. The continuous water supply function of the water path controller is very important under a plurality of conditions. For example, in the event of damage to a filter element of a water treatment system, water supply to a water-using site is ensured. Therefore, the utility model discloses water route controller has still further improved the fire control safety in water use place.

As shown in fig. 17 to 21 of the drawings, the first fluid control surface 120 of the fixed plate 12 of the waterway controller valve 10 according to the first embodiment of the present invention is divided clockwise equally into a first portion 1201, a second portion 1202, a third portion 1203, a fourth portion 1204, a fifth portion 1205 and a sixth portion 1206 shown by dotted lines; the second fluid control surface 130 of the movable plate 13 of the waterway controller valve 10 is divided clockwise equally into a first area 1301, a second area 1302, a third area 1303, a fourth area 1304, a fifth area 1305 and a sixth area 1306 shown by dotted lines, wherein the first channel 101 extends upward from the first area 1301 and the second area 1302 of the second fluid control surface 130, the second channel 102 extends downward from the first portion 1201 and the second portion 1202 of the first fluid control surface 120 of the fixed plate 12, the third channel 103 extends downward from the sixth portion 1206 of the first fluid control surface 120 of the fixed plate 12, the fourth channel 104 extends downward from the fifth portion 1205 of the first fluid control surface 120, the fifth channel 105 extends downward from the third portion 1203 of the first fluid control surface 120, the sixth channel 106 extends downward from the fourth portion 1204 of the first fluid control surface 120, the seventh channel 107 extends in the fifth region 1305 and the sixth region 1306 of the second fluidic control surface 130, and the eighth channel 108 extends in the third region 1303 and the fourth region 1304 of the second fluidic control surface 130.

As shown in fig. 1 to 26 of the drawings, when the waterway controller valve 10 of the waterway controller according to the first embodiment of the present invention is in the first operating position, the movable plate 13 is rotated to align the first region 1301 and the second region 1302 of the second fluid control surface 130 with the first portion 1201 and the second portion 1202 of the first fluid control surface 120 of the fixed plate 12, so that the first passage 101 of the waterway control valve 10 is communicated with the second passage 102, to form the first communicating passage 1001, the third area 1303 and the fourth area 1304 of the second fluid control surface 130 of the movable plate 13 are aligned with the third portion 1203 and the fourth portion 1204 of the first fluid control surface 120 of the fixed plate 12 respectively, so that the eighth passage 108 communicates with the fifth passage 105 and the sixth passage 106, respectively, to form the third communicating passage 1003; the fifth area 1305 and the sixth area 1306 of the second fluid control surface 130 of the movable plate 13 are aligned with the fifth portion 1205 and the sixth portion 1206 of the first fluid control surface 120 of the fixed plate 12, respectively, so that the seventh channel 107 is communicated with the third channel 103 and the fourth channel 104, respectively, to form the second communication channel 1002.

As shown in fig. 1 to 26 of the drawings, further, when the waterway controller valve 10 of the waterway controller according to the first embodiment of the present invention is in the second working position, the movable plate 13 is rotated to the first region 1301 and the second region 1302 of the second fluid control surface 130 of the movable plate 13 respectively align with the fourth portion 1204 and the fifth portion 1205 of the first fluid control surface 120 of the fixed plate 12, so that the first channel 101 respectively communicates with the fourth channel 104 and the sixth channel 106 to form the fourth communication channel 1004 and the fifth communication channel 1005; the fifth area 1305 and the sixth area 1306 of the second fluid control surface 130 of the movable plate 13 are aligned with the second portion 1202 and the third portion 1203 of the first fluid control surface 120 of the fixed plate 12, respectively, and the fourth area 1304 and the third area 1303 of the second fluid control surface 130 of the movable plate 13 are aligned with the first portion 1201 and the sixth portion 1206 of the first fluid control surface 120 of the fixed plate 12, respectively, so that the seventh channel 107 is communicated with the second channel 102 and the fifth channel 105, respectively, and the eighth channel 108 is communicated with the second channel 102 and the third channel 103, respectively.

As shown in fig. 5 of the drawings, the waterway controller further includes a knob 60 and a fixing element 70, wherein the knob 60 is installed above the movable valve plate 30 to drive the movable valve plate 30 to rotate, and the fixing element 70 is installed above the knob 60 to facilitate a user to control the movable valve plate 30 to rotate and rotate through the knob 60, so as to control the waterway controller to switch between the first working state and the second working state.

It is noted that the first, second, third, fourth, fifth, seventh and/or eighth terms are used herein only to name and distinguish between different components (or elements) of the present invention, which in themselves do not have a meaning as to how many in order or number. Correspondingly, it can also be seen that, when the waterway controller is in the second operating state, the first channel 101 of the waterway control valve 10 is communicated with the sixth channel 106 to form a fourth communication channel respectively communicated with the first opening 1101 and the sixth opening 1106 of the valve body 11; the first passage 101 of the waterway control valve 10 is communicated with the fourth passage 104 to form a fifth communication passage respectively communicated with the first opening 1101 and the fourth opening 1104 of the valve body 11.

Fig. 3 to 21 and 27 to 32 of the drawings illustrate the waterway controller according to the second embodiment of the present invention, wherein the waterway controller according to the second embodiment of the present invention includes a waterway control valve 10 and a set of connection pipes 20, wherein the waterway control valve 10 includes a valve body 11 and a valve core 11 ', wherein the valve body 11 of the waterway control valve 10 has a valve cavity 110, a first opening 1101, a second opening 1102, a third opening 1103, a fourth opening 1104, a fifth opening 1105 and a sixth opening 1106, and the set of connection pipes 20 includes a first connection pipe 21, a second connection pipe 22, a third connection pipe 23, a fourth connection pipe 24, a fifth connection pipe 25 and a sixth connection pipe 26, wherein the valve core 11' is disposed in the valve cavity 110, and the first connection pipe 21, the second connection pipe 22, the third connection pipe 23, the fourth connection pipe 24, the fifth connection pipe 25 and the sixth connection pipe 26, The second connection pipe 22, the third connection pipe 23, the fourth connection pipe 24, the fifth connection pipe 25 and the sixth connection pipe 26 are connected to the valve body 11 of the waterway control valve 10, respectively. As shown in fig. 3 to 21 and 27 to 32 of the drawings, further, the first connection pipe 21 of the connection pipe set 20 of the waterway controller of the present invention is communicated with the first opening 1101, the second connection pipe 22 is communicated with the second opening 1102, the third connection pipe 23 is communicated with the third opening 1103, the fourth connection pipe 24 is communicated with the fourth opening 1104, the fifth connection pipe 25 is communicated with the fifth opening 1105, and the sixth connection pipe 26 is communicated with the sixth opening 1106.

As shown in fig. 27 to 32 of the drawings, the first connection pipe 21 of the waterway controller according to the second embodiment of the present invention is in communication with the first port 301 of the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the sixth connection pipe 26 is connected to the second port 302 of the main control valve 30 of the multi-functional water treatment system of the present invention, the fourth connection pipe 24 is connected to the third connection port 303 of the exemplary main control valve 30 of the exemplary multi-functional water treatment system of the present invention, the second connecting pipe 22 of the waterway controller is communicated with the water source of the multifunctional water treatment system, the fifth connecting pipe 25 is connected to a water outlet of the exemplary multi-functional water treatment system of the present invention, this third connecting pipe 23 is linked together with another water outlet of the exemplary multi-functional water treatment system of the present invention. Therefore, according to the present invention, the two ends of the second connecting pipe 22 of the waterway controller of the second embodiment are respectively connected to the second opening 1102 of the valve body 11 of the waterway control valve 10 and the water inlet (or raw water source) of the multifunctional water treatment system, the two ends of the third connecting pipe 23 are respectively connected to the third opening 1103 of the valve body 11 of the waterway control valve 10 and a water outlet of the exemplary multifunctional water treatment system, and the two ends of the fifth connecting pipe 25 are respectively connected to the fifth opening 1105 of the valve body 11 of the waterway control valve 10 and another water outlet of the exemplary multifunctional water treatment system. Correspondingly, the utility model discloses exemplary multi-functional water processing system can control raw water (or pending water) and flow to its first interface 301 through this second connecting pipe 22 and this first connecting pipe 21, and pending water is handled the utility model discloses exemplary multi-functional water processing system handles the back, can generate two kinds of different treatment back water, and a treatment back water flows to this fourth connecting pipe 24 through this main control valve 30's third interface 303, and further flows to this third connecting pipe 23 the utility model discloses an exemplary multi-functional water processing system's a delivery port, another kind of treatment back water flows to this sixth connecting pipe 26 through this main control valve 30's second interface 302, and further flows to this another delivery port of exemplary multi-functional water processing system through this fifth connecting pipe 25.

As shown in fig. 27 and 32 of the drawings, when the waterway controller according to the second embodiment of the present invention is in a first operating state (or a water supply operating state), the valve core 11' of the waterway control valve 10 forms a first communicating channel 1001A respectively communicating with the second opening 1102 and the first opening 1101 of the valve body 11, a second communicating channel 1002A respectively communicating with the fourth opening 1104 and the third opening 1103, and a third communicating channel 1003A respectively communicating with the sixth opening 1106 and the fifth opening 1105. In other words, when the waterway controller of the present invention is in the first operating state, the valve body 11' of the waterway control valve 10 forms the first communicating passageway 1001A respectively communicating with the second connecting tube 22 and the first connecting tube 21, the second communicating passageway 1002A respectively communicating with the fourth connecting tube 24 and the third connecting tube 23, and the third communicating passageway 1003A respectively communicating with the sixth connecting tube 26 and the fifth connecting tube 25, so that the water to be treated can be supplied to the exemplary main control valve 30 of the exemplary multi-functional water treatment system through the second connecting tube 22, the first communicating passageway 1001A and the first connecting tube 21, and a treated water obtained after the water to be treated is treated by the exemplary multi-functional water treatment system of the present invention flows to the fourth connecting tube 24 through the third port 303 of the main control valve 30, and further flow to this exemplary multi-functional water treatment system's a delivery port through this second intercommunication passageway 1002A and this third connecting pipe 23 the utility model discloses another kind of water after handling flows to this sixth connecting pipe 26 through this main control valve 30's second interface 302, and further flows to this exemplary multi-functional water treatment system's another delivery port through this third intercommunication passageway 1003A and this fifth connecting pipe 25 the utility model discloses. Therefore, when the waterway controller according to the second embodiment of the present invention is in the first operating state, the second connection pipe 22, the first communication channel 1001A and the first connection pipe 21 form a raw water waterway for providing water to be treated (or raw water) to a water treatment device of a water treatment system, such as a filter element; the sixth connecting pipe 26, the third communicating passage 1003A and the fifth connecting pipe 25 form a water supply path for treated water to flow out; the fourth connection pipe 24, the second communication passage 1002A and the third connection pipe 23 form another water supply path for treated water to flow out.

As shown in fig. 27 and 32 of the drawings, when the waterway controller according to the second embodiment of the present invention is in a second operating state, the valve core 11' of the waterway control valve 10 forms a fourth communication passage 1004A respectively communicating with the second opening 1102 and the third opening 1103 of the valve body 11. In other words, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the valve core 11' of the waterway control valve 10 forms the fourth communicating channel 1004A respectively communicated with the second connecting pipe 22 and the third connecting pipe 23, so that the water to be treated can pass through the second connecting pipe 22, the fourth communicating channel 1004A and the third connecting pipe 23 and flow out through the third connecting pipe 23. Therefore, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second connecting pipe 22, the fourth communicating channel 1004A and the third connecting pipe 23 form a raw water waterway for providing water (or raw water) to be treated. As shown in fig. 27 and 32 of the drawings, further, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the valve core 11' of the waterway control valve 10 further forms a fifth communication channel 1005A respectively communicated with the second opening 1102 and the fifth opening 1105 of the valve body 11. In other words, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the valve core 11' of the waterway control valve 10 further forms the fifth communicating channel 1005A respectively communicated with the second connecting pipe 22 and the fifth connecting pipe 25, so that the water to be treated can pass through the second connecting pipe 22, the fifth communicating channel 1005A and the fifth connecting pipe 25 and flow out through the fifth connecting pipe 25. Therefore, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second connecting pipe 22, the fifth communicating channel 1005A and the fifth connecting pipe 25 further form another raw water waterway for providing water (or raw water) to be treated.

As shown in fig. 27 and 32 of the drawings, when the waterway controller according to the second embodiment of the present invention is in the first operating state, the second channel 102 of the waterway control valve 10 is communicated with the first channel 101 to form the first communicating channel 1001A respectively communicated with the second opening 1102 and the first opening 1101 of the valve body 11, the seventh channel 107 of the waterway control valve 10 is respectively communicated with the third channel 103 and the fourth channel 104 to form the second communicating channel 1002A respectively communicated with the fourth opening 1104 and the third opening 1103, and the eighth channel 108 of the waterway control valve 10 is respectively communicated with the fifth channel 105 and the sixth channel 106 to form the third communicating channel 1003 respectively communicated with the sixth opening 1106 and the fifth opening 1105. In other words, when the waterway controller according to the second embodiment of the present invention is in the first operating state, the movable valve plate 13 and the fixed valve plate 12 of the waterway control valve 10 form the first communicating passageway 1001A respectively communicated with the second connecting tube 22 and the first connecting tube 21, form the second communicating passageway 1002A respectively communicated with the fourth connecting tube 24 and the third connecting tube 23, and form the third communicating passageway 1003A respectively communicated with the sixth connecting tube 26 and the fifth connecting tube 25, so that the water to be treated can be supplied to the main control valve 30 of the exemplary multi-functional water treatment system of the present invention through the second connecting tube 22, the first communicating passageway 1001A and the first connecting tube 21, and a treated water obtained after the water to be treated is treated by the exemplary multi-functional water treatment system of the present invention flows to the fourth connecting tube 24 through the third port 303 of the valve 30, and further flow to this exemplary multi-functional water treatment system's a delivery port through this second intercommunication passageway 1002A and this third connecting pipe 23 the utility model discloses another kind of water after handling flows to this sixth connecting pipe 26 through this main control valve 30's second interface 302, and further flows to this exemplary multi-functional water treatment system's another delivery port through this third intercommunication passageway 1003A and this fifth connecting pipe 25 the utility model discloses. Correspondingly, when according to the utility model discloses this water route controller of second embodiment is in its first operating condition, according to the utility model discloses this water route control valve 10 of this water route controller of second embodiment is located a first work position.

As shown in fig. 27 and 32 of the drawings, further, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the eighth channel 108 of the waterway control valve 10 is respectively communicated with the second channel 102 and the third channel 103, so as to form the fourth communication channel 1004A respectively communicated with the second opening 1102 and the third opening 1103 of the valve body 11. In other words, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the movable valve plate 13 and the fixed valve plate 12 of the waterway control valve 10 form the fourth communicating channel 1004A respectively communicated with the second connecting pipe 22 and the third connecting pipe 23, so that the water to be treated can pass through the second connecting pipe 22, the fourth communicating channel 1004A and the third connecting pipe 23 and flow out through the third connecting pipe 23. Therefore, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second connecting pipe 22, the fourth communicating channel 1004A and the third connecting pipe 23 form a raw water waterway for providing water (or raw water) to be treated. As shown in fig. 27 to 32 of the drawings, further, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the seventh channel 107 of the waterway control valve 10 is respectively communicated with the second channel 102 and the fifth channel 105, so as to form the fifth communication channel 1005A respectively communicated with the second opening 1102 and the fifth opening 1105 of the valve body 11. In other words, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the movable valve plate 13 and the fixed valve plate 12 of the waterway control valve 10 further form the fifth communicating channel 1005A respectively communicated with the second connecting pipe 22 and the fifth connecting pipe 25, so that the water to be treated can pass through the second connecting pipe 22, the fifth communicating channel 1005A and the fifth connecting pipe 25 and flow out through the fifth connecting pipe 25. Therefore, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second connecting pipe 22, the fifth communicating channel 1005A and the fifth connecting pipe 25 further form another raw water waterway for providing water (or raw water) to be treated. It can be understood that, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second channel 102, the third channel 103 and the fifth channel 105 of the waterway control valve 10 form a three-way structure. Correspondingly, when according to the utility model discloses this water route controller of second embodiment is in its second operating condition, according to the utility model discloses this water route control valve 10 of this water route controller of second embodiment is in a second work position. Preferably, when the waterway control valve 10 of the waterway controller according to the second embodiment of the present invention is in the second working position, the first channel 101 of the waterway control valve 10 is respectively communicated with the fourth channel 104 and the sixth channel 106. It can be understood that, when the waterway controller of the second embodiment of the present invention is located at the second working position, the movable valve plate 13 of the waterway controller 10 separates the second channel 102, the third channel 103 and the fifth channel 105 from the valve cavity 110 of the waterway controller 10 and the first channel 101 of the waterway controller 10, so that the raw water or the water to be treated can not be provided to the main control valve 30 of the exemplary multifunctional water treatment system.

As shown in fig. 28 to 30 of the drawings, when the waterway controller according to the second embodiment of the present invention is in the first operating state, the second connecting pipe 22, the first communicating channel 1001A and the first connecting pipe 21 of the waterway controller form a waterway to be treated, the fourth connecting pipe 24, the second communicating channel 1002A and the third connecting pipe 23 form a waterway after treatment, the sixth connecting pipe 26, the third communicating channel 1003A and the fifth connecting pipe 25 form another waterway after treatment, so as to allow the water to be treated to flow in from the second connecting pipe 22 and flow to the exemplary main control valve 30 of the exemplary water treatment system of the present invention through the first communicating channel 1001A and the first connecting pipe 21, and flow to the corresponding water treatment device, such as a purification cartridge or a softening cartridge, is controlled by the main control valve 30, and two kinds of treated water obtained by the treatment are guided by the main control valve 30, and respectively flow to treated water paths, one of which is supplied through the fourth connection pipe 24, the second communication passage 1002A and the third connection pipe 23, and the other of which is supplied through the sixth connection pipe 26, the third communication passage 1003A and the fifth connection pipe 25.

As shown in fig. 31 and 32 of the drawings, further, when the waterway controller according to the second embodiment of the present invention is in the second operating state, the second connecting pipe 22, the fourth communicating channel 1004A and the third connecting pipe 23 of the waterway control valve 10 form a bypass waterway, and the second connecting pipe 22, the fifth communicating channel 1005A and the fifth connecting pipe 25 form another bypass waterway, so as to allow the water to be treated to flow in from the second connecting pipe 22, flow out through the fourth communicating channel 1004A, the third connecting pipe 23 and/or through the fifth communicating channel 1005A and the fifth connecting pipe 25 and be provided. Therefore, according to the present invention, the waterway controller of the second embodiment can ensure that water is supplied to the corresponding water treatment system through the water treatment system regardless of the water treatment operation state (the first operation state) or the standby state (the second operation state).

Alternatively, as shown in fig. 37 and 38 of the drawings, when the waterway controller of the present invention is in the first operating state, raw water or water to be treated can also flow in from the third connecting pipe 23, and then is provided to the exemplary main control valve 30 of the exemplary water treatment system of the present invention through the second communicating channel 1002A and the fourth connecting pipe 24, and flows to its corresponding water treatment device, such as a purifying filter or a softening filter, through the main control valve 30, two kinds of treated water obtained by treating water to be treated are guided by the main control valve 30 to respectively flow to treated waterways, wherein one kind of treated water is provided through the first connecting pipe 21, the first communicating channel 1001A and the second connecting pipe 22, and the other kind of treated water is provided through the sixth connecting pipe 26, the third communicating channel 1003A and the fifth connecting pipe 25. At this moment, the utility model discloses this fourth connecting pipe 24 of water route controller is linked together with this first interface 301 of this multi-functional water processing system, and this first connecting pipe 21 and this sixth connecting pipe 26 are linked together with this second interface 302 and this third interface 303 of this multi-functional water processing system respectively. Correspondingly, when the waterway controller of the present invention is in the second operating state, the raw water or the water to be treated flows in from the third connecting pipe 23, and then flows to the second connecting pipe 22 and the fifth connecting pipe 25, respectively. In other words, the eighth channel 108 of the waterway control valve 10 of the waterway controller of the present invention is respectively communicated with the third channel 103 and the second channel 102, so as to form a fourth communicating channel 1004D respectively communicated with the third opening 1103 and the second opening 1102 of the waterway control valve 10, thereby allowing raw water or water to be treated to flow from the third connecting pipe 23 to the second connecting pipe 22 and to be supplied through a corresponding pipeline. Further, when the utility model discloses water route controller is in this second operating condition, the utility model discloses this eighth passageway 108 of this water route control valve 10 of water route controller is linked together with this third passageway 103 and this second passageway 102 respectively, and this seventh passageway 107 is linked together with this second passageway 102 and this fifth passageway 105 respectively, that is to say, this second passageway 102 is linked together with this third passageway 103 and this fifth passageway 105 respectively to form a fifth intercommunication passageway 1005D that is linked together with this third opening 1103 and this fifth opening 1105 of this water route control valve 10 respectively, thereby make raw water or pending water can flow to this fifth connecting pipe 25 from this third connecting pipe 23, and be provided through corresponding pipeline. Therefore, the utility model discloses water route controller can ensure that corresponding water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water to be provided through water processing system.

Alternatively, as shown in fig. 39 and 40 of the drawings, when the waterway controller according to the second embodiment of the present invention is in the first operating state, raw water or water to be treated may also flow in from the fifth connection pipe 25, and then supplied to the example main control valve 30 of the example water treatment system of the present invention through the third communication passage 1003A and the sixth connection pipe 26, and is controlled by the main control valve 30 to flow to the corresponding water treatment device, such as a purification filter element or a softening filter element, two kinds of treated water obtained by treating the water to be treated are guided by the main control valve 30 to respectively flow to the treated water channels, one of the treated water is supplied through the first connection pipe 21, the first communication passage 1001A and the second connection pipe 22, and the other treated water is supplied through the fourth connection pipe 24, the second communication passage 1002A and the third connection pipe 23. At this moment, the utility model discloses this sixth connecting pipe 26 of water route controller is linked together with this first interface 301 of this multi-functional water processing system, and this first connecting pipe 21 and this fourth connecting pipe 24 are linked together with this second interface 302 and this third interface 303 of this multi-functional water processing system respectively. Correspondingly, when the waterway controller of the present invention is in the second operating state, the raw water or the water to be treated flows in from the fifth connecting pipe 25, and then flows to the second connecting pipe 22 and the third connecting pipe 23 respectively. In other words, the seventh channel 107 of the waterway control valve 10 of the waterway controller of the present invention is respectively communicated with the fifth channel 105 and the second channel 102, thereby forming a fourth communicating channel 1004E respectively communicated with the fifth opening 1105 and the second opening 1102 of the waterway control valve 10, so that the raw water or the water to be treated can flow from the fifth connecting pipe 25 to the second connecting pipe 22 and be supplied through the corresponding pipeline. Further, when the utility model discloses water route controller is in this second operating condition, the utility model discloses this seventh passageway 107 of this water route control valve 10 of water route controller is linked together with this fifth passageway 105 and this second passageway 102 respectively, and this eighth passageway 108 is linked together with this third passageway 103 and this second passageway 102 respectively, that is to say, this second passageway 102 is linked together with this third passageway 103 and this fifth passageway 105 respectively to form a fifth intercommunication passageway 1005E that is linked together with this fifth opening 1105 of this water route control valve 10 and this third opening 1103 respectively, thereby make raw water or pending water can flow to this third connecting pipe 23 from this fifth connecting pipe 25, and be provided through corresponding pipeline. Therefore, the utility model discloses water route controller can ensure that corresponding water processing system is no matter at water treatment operating condition (first operating condition), still at standby state (second operating condition), all has water to be provided through water processing system.

It is noted that the first, second, third, fourth, fifth, seventh and/or eighth terms are used herein only to name and distinguish between different components (or elements) of the present invention, which in themselves do not have a meaning as to how many in order or number. Correspondingly, it can also be considered that, when the waterway controller is in the second working state, the seventh channel 107 of the waterway control valve 10 is respectively communicated with the second channel 102 and the fifth channel 105 to form a fourth communication channel respectively communicated with the second opening 1102 and the fifth opening 1105 of the valve body 11; the eighth passage 108 of the waterway control valve 10 is respectively communicated with the second passage 102 and the third passage 103 to form a fifth communication passage respectively communicated with the second opening 1102 and the third opening 1103 of the valve body 11.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention.

The advantages of the present invention are already complete and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (20)

1. A waterway controller for a multi-functional water treatment system, comprising:

a first connecting pipe;

a second connection pipe;

a third connecting pipe;

a fourth connecting pipe;

a fifth connecting pipe;

a sixth connecting pipe; and

the water path control valve comprises a valve body and a valve core, wherein the valve body of the water path control valve is provided with a valve cavity, a first opening, a second opening, a third opening, a fourth opening, a fifth opening and a sixth opening, the valve core is arranged in the valve cavity, the first connecting pipe is communicated with the first opening, the second connecting pipe is communicated with the second opening, the third connecting pipe is communicated with the third opening, the fourth connecting pipe is communicated with the fourth opening, the fifth connecting pipe is communicated with the fifth opening, and the sixth connecting pipe is communicated with the sixth opening.

2. The waterway controller of claim 1, wherein the waterway control valve is a planar valve, wherein the valve core includes a stationary plate and a movable plate, wherein the stationary plate has a first fluid control surface and the movable plate has a second fluid control surface, wherein the waterway control valve has a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel, and an eighth channel, wherein the second channel, the third channel, the fourth channel, the fifth channel, and the sixth channel are disposed in the stationary plate and extend from the first fluid control surface of the stationary plate, respectively; the first channel, the seventh channel and the eighth channel are respectively arranged on the movable valve plate and respectively extend from the second fluid control surface of the movable valve plate, wherein the first opening of the valve body is communicated with the first channel, the second channel is communicated with the second opening, the third channel is communicated with the third opening, the fourth channel is communicated with the fourth opening, the fifth channel is communicated with the fifth opening, and the sixth channel is communicated with the sixth opening.

3. The waterway controller of claim 2, having a first operating state, wherein when the waterway controller is in the first operating state, the first channel of the waterway control valve is in communication with the second channel, the seventh channel of the waterway control valve is in communication with the third channel and the fourth channel, respectively, and the eighth channel of the waterway control valve is in communication with the fifth channel and the sixth channel, respectively.

4. The waterway controller of claim 3, further comprising a second operating state, wherein the first channel of the waterway control valve is in communication with the fourth channel when the waterway controller is in the second operating state.

5. The waterway controller of claim 4, wherein the first channel of the waterway control valve is in communication with the sixth channel when the waterway controller is in the second operational state.

6. The waterway controller of claim 4, wherein the first channel of the waterway control valve is in communication with the fourth channel and the sixth channel, respectively, when the waterway controller is in the second operational state.

7. The waterway controller of claim 2, 3, 4, 5, or 6, wherein the first passage and the first opening are both in communication with the valve chamber, such that the first passage and the first opening are in communication.

8. The waterway controller of claim 4, 5, or 6, wherein the movable plate of the waterway control valve separates the second channel, the third channel, and the fifth channel from the valve chamber of the waterway control valve and the first channel of the waterway control valve when the waterway controller is in the second operating state.

9. The waterway controller of claim 4, 5, or 6, wherein the movable plate of the waterway control valve separates the second channel, the third channel, and the fifth channel from the valve chamber of the waterway control valve and the first channel of the waterway control valve when the waterway controller is in the second operating state.

10. The waterway controller of claim 1, 2, 3, 4, 5, 6, or 9, wherein the second connection pipe, the third connection pipe, and the fifth connection pipe are respectively disposed at a same side of the valve body of the waterway control valve of the waterway controller, and the first connection pipe, the fourth connection pipe, and the sixth connection pipe are respectively disposed at another same side of the valve body of the waterway control valve of the waterway controller.

11. A waterway control valve for a multi-functional water treatment system, comprising:

a valve body; and

a valve cartridge, wherein the valve body of the waterway control valve has a valve chamber, a first opening, a second opening, a third opening, a fourth opening, a fifth opening, and a sixth opening, wherein the valve cartridge is disposed within the valve chamber.

12. The waterway control valve of claim 11, wherein the waterway control valve is a planar valve, wherein the valve core comprises a fixed valve plate and a movable valve plate, wherein the fixed valve plate has a first fluid control surface, the movable valve plate has a second fluid control surface, wherein the second fluid control surface of the movable valve plate and the first fluid control surface of the fixed valve plate are disposed opposite to each other, wherein the waterway control valve has a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel, and an eighth channel, wherein the second channel, the third channel, the fourth channel, the fifth channel, and the sixth channel are disposed on the fixed valve plate and extend from the first fluid control surface of the fixed valve plate, respectively; the first channel, the seventh channel and the eighth channel are respectively arranged on the movable valve plate and respectively extend from the second fluid control surface of the movable valve plate, wherein the first opening of the valve body is communicated with the valve cavity, the first channel is communicated with the valve cavity, the second channel is communicated with the second opening, the third channel is communicated with the third opening, the fourth channel is communicated with the fourth opening, the fifth channel is communicated with the fifth opening, and the sixth channel is communicated with the sixth opening.

13. The waterway control valve of claim 12, wherein the movable plate of the waterway control valve is rotatably disposed on the fixed plate so as to provide the waterway control valve with a first operating position, wherein when the waterway control valve is in the first operating position, the first channel of the waterway control valve is in communication with the second channel, the seventh channel of the waterway control valve is in communication with the third channel and the fourth channel, respectively, and the eighth channel of the waterway control valve is in communication with the fifth channel and the sixth channel, respectively.

14. The waterway control valve of claim 13, further comprising a second operating position, wherein the first channel of the waterway control valve is in communication with the fourth channel when the waterway control valve is in the second operating position.

15. The waterway control valve of claim 14, wherein the first channel of the waterway control valve is in communication with the sixth channel when the waterway control valve is in the second operational position.

16. The waterway control valve of claim 13, further comprising a second operating position, wherein the first channel of the waterway control valve is in communication with the fourth channel and the sixth channel, respectively, when the waterway control valve is in the second operating position.

17. The waterway control valve of claim 12, 13, 14, 15, or 16, wherein the first passage and the first opening are in communication with the valve chamber, such that the first passage and the first opening are in communication.

18. The waterway control valve of claim 14, 15 or 16, wherein the movable plate of the waterway control valve separates the second channel, the third channel and the fifth channel from the valve chamber of the waterway control valve and the first channel of the waterway control valve when the waterway control valve is in the second operating position.

19. The waterway control valve of claim 11, 12, 13, 14, 15, or 16, wherein the second opening, the third opening, and the fifth opening are respectively disposed on a same side of the valve body of the waterway control valve, and the first opening, the fourth opening, and the sixth opening are respectively disposed on another same side of the valve body of the waterway control valve.

20. The waterway control valve of claim 18, wherein the second opening, the third opening, and the fifth opening are each disposed on a same side of the body of the waterway control valve, and the first opening, the fourth opening, and the sixth opening are each disposed on another same side of the body of the waterway control valve.

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