CN204848471U - Water route integrated device - Google Patents

Abstract

The utility model provides a water route integrated device, it includes the integrated body in a water route, wherein the integrated body in this water route has a first passageway, a second channel, a third passageway, a first interface, a second interface, a third interface, a fourth interface, one the 5th interface, one the 6th interface, one the 7th interface, one the 8th interface and one the 9th interface, this first passageway wherein, this second channel and this third passageway are separated by respectively to turn up the soil and are set up that integrated this is internal in this water route, this first interface wherein, this second interface, this third interface, this fourth interface, the 5th interface, the 6th interface, the 7th interface, the 8th interface is separated by respectively to turn up the soil with the 9th interface and is set up at the integrated body in this water route, wherein this second interface is linked together with this first passageway respectively with this third interface, this fourth interface is linked together with this second channel respectively with the 5th interface, the 6th interface is linked together with this third passageway respectively with the 8th interface.

Description

Water route integrated device

Technical field

The utility model relates to a kind of water treatment system, particularly relates to a kind of Water route integrated device for water treatment system, wherein uses the assembling of the water treatment system of this Water route integrated device convenient and be convenient to automatic assembling.

Background technology

Along with the development of society, the consciousness of the healthy water of people is also more and more stronger.But concerning the crowd living in specific region, the source of its domestic water is but certain and is difficult to change.Therefore, a lot of local people, especially by the people of environmental pollution, need water correction plant or water treatment system, to process further drinking water source or tap water, to improve daily water consumption, and the especially quality of tap water.

The water treatment system for family's use common on Vehicles Collected from Market mainly contains water-purifying machine and water purification machine, wherein water-purifying machine mainly removes the particulate matter in water by the mode of filtering and adsorb to water purification, as the pollutent such as bacterium, iron rust, and mostly water purification machine is to utilize high-precision filtration film, as reverse osmosis membrane (RO film), utilize the principle of reverse osmosis and by the mode of reverse osmosis except all organic pollutants in anhydrating and great majority are harmful to mineral ion, thus obtain the pure water meeting straight drink standard.

Comparatively speaking, water purification machine is to the process of water and purification, more thorough than water-purifying machine.But water purification machine needs to utilize the high-precision membrane such as RO film to carry out reverse-osmosis treated to water, and therefore its structure is more more complicated than water-purifying machine.Generally, the installation of water purification machine needs special installation personnel and after it is damaged, also needs special personnel after sale to keep in repair.This inevitably increases cost of marketing and makes troubles to user.

Utility model content

Main advantage of the present utility model is that it provides a kind of for water treatment system, the especially Water route integrated device of desalt treatment facility, with the automatic assembling making water treatment system be convenient to user's use and/or manufacturers.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein all water routes relating to water purification process of this water treatment system all can be arranged on this Water route integrated device by integrated.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein use the water treatment system of this Water route integrated device, especially each parts of desalt treatment facility by this Water route integrated device by quick assembling.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein this water treatment system, especially each parts of desalt treatment facility are by by after modularization and stdn, are removably mounted on this Water route integrated device.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein use the water treatment system of this Water route integrated device, especially the water route of desalt treatment facility is arranged on this Water route integrated device by integrated, thus this water treatment system is not needed to form a complete water-flowing path and using extra connecting water pipe to be linked together by all parts of water treatment system.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein use the water treatment system of this Water route integrated device, especially the water route of desalt treatment facility is by the integrated inside being arranged on this Water route integrated device and being hidden in this Water route integrated device, is easily damaged to avoid this water treatment system water route.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein use the water treatment system of this Water route integrated device, especially desalt treatment facility is when being damaged, and can be repaired easily and rapidly.Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, what wherein use this water treatment system is had a standard interface, so that the manufacture of manufacturers by the integrated each water route being arranged on this Water route integrated device.

Another advantage of the present utility model is that it provides a kind of for water treatment system, especially the Water route integrated device of desalt treatment facility, wherein use the Installation Mark be provided with by the integrated interface being arranged on each water route of this Water route integrated device for corresponding component of this water treatment system, rapidly and exactly the corresponding component of this water treatment system is arranged on this Water route integrated device to enable user.

Another advantage of the present utility model is that it provides a kind of water treatment system, especially desalt treatment facility, and wherein this water treatment system uses the utility model Water route integrated device, and wherein this Water route integrated device has at least one in above-mentioned advantage.

Another advantage of the present utility model is that it provides a kind of for water treatment system, and the especially Water route integrated device of desalt treatment facility, wherein this Water route integrated device does not need accurate parts and complicated structure, and its manufacturing process is simple, with low cost.

Other advantage of the present utility model and feature are fully demonstrated by following detailed description and combination by the means specially pointed out in claims and device is achieved.

According to the utility model, the utility model that can realize aforementioned object and other objects and advantage comprises for the Water route integrated device of water treatment system:

A water route integrated ontology, wherein this water route integrated ontology has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage is spaced apart in this water route integrated ontology respectively with this third channel, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this water route integrated ontology respectively with the 9th interface, wherein this second interface is connected with this first channel respectively with the 3rd interface, 4th interface is connected with this second passage respectively with the 5th interface, 6th interface is connected with this third channel respectively with the 8th interface.

The utility model provides a kind of water treatment system further, and wherein this water treatment system comprises:

First unit for treating water;

Second unit for treating water; With

A Water route integrated device, wherein this first unit for treating water comprises first strainer and a hydraulic pressure producer, this second unit for treating water comprises second strainer and a first flow controller, this Water route integrated device comprises a water route integrated ontology, and wherein this water route integrated ontology has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage is spaced apart in this water route integrated ontology respectively with this third channel, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this water route integrated ontology respectively with the 9th interface, wherein this second interface is connected with this first channel respectively with the 3rd interface, 4th interface is connected with this second passage respectively with the 5th interface, 6th interface is connected with this third channel respectively with the 8th interface, wherein this first strainer is connected with this first interface and this second interface respectively, this hydraulic pressure producer is connected with the 3rd interface and the 4th interface respectively, this second strainer respectively with the 5th interface, 6th interface and the 7th interface are connected, and this first flow controller is connected with the 8th interface and the 9th interface respectively.

The utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) first plate body and second plate body is manufactured, wherein this first plate body has a forming surface, wherein this Water route integrated device has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage and this third channel this forming surface at this first plate body spaced apart respectively, this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this second plate body respectively with the 9th interface, with

(B) this second plate body is arranged on by one-body molded for this first plate body, wherein this second interface is connected with this first channel respectively with the 3rd interface, 4th interface is connected with this second passage respectively with the 5th interface, and the 6th interface is connected with this third channel respectively with the 8th interface.

The utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) prepare manufactured materials, and material is joined 3D printer; With

(B) in 3D printer, print command is inputted, to enable this 3D printer print this Water route integrated device according to the design variable of this Water route integrated device, or activate this 3D printer and print this Water route integrated device to enable this 3D printer according to the instruction be stored in advance in this 3D printer.

By the understanding to description subsequently and accompanying drawing, the further object of the utility model and advantage will be fully demonstrated.

These and other objects of the present utility model, characteristics and advantages, by following detailed description, accompanying drawing and claim are fully demonstrated.

Accompanying drawing explanation

Fig. 1 is the stereographic map of the water treatment system according to the utility model first preferred embodiment.

Fig. 2 is the wiring layout of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first.

Fig. 3 is the stereographic map of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first.

Fig. 4 A is the vertical view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first.

Fig. 4 B is the sectional view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first, wherein the figure illustrates the arrangement of each passage of this Water route integrated device of the water treatment system according to the utility model first preferred embodiment.

Fig. 4 C is the sectional view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first, wherein the figure illustrates the arrangement of each interface of this Water route integrated device of the water treatment system according to the utility model first preferred embodiment.

Fig. 4 D is the control module of control unit of water treatment system and the connection diagram of other parts of this water treatment system of complying with the preferred embodiment of above-mentioned the utility model first.

Fig. 5 is each passage of Water route integrated device of water treatment system and the connection diagram of other each parts of interface and water treatment system of complying with the preferred embodiment of above-mentioned the utility model first.

Fig. 6 A is the stereographic map of a kind of optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 6 B is the vertical view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 6 C is the sectional view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 7 is each passage of Water route integrated device of above-mentioned optional enforcement and the connection diagram of other each parts of interface and water treatment system of water treatment system according to the utility model first preferred embodiment.

Fig. 8 is the stereographic map of a kind of optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 9 A is the vertical view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 9 B is the sectional view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model first preferred embodiment.

Fig. 9 C is the tank of above-mentioned optional enforcement according to the water treatment system of the utility model first preferred embodiment and the connection diagram of Water route integrated device.

Fig. 9 D is the control module of control unit of above-mentioned optional enforcement and the connection diagram of other parts of this water treatment system of the water treatment system complying with the preferred embodiment of above-mentioned the utility model first.

Figure 10 is the stereographic map of the water treatment system according to the utility model second preferred embodiment.

Figure 11 A is the vertical view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model second.

Figure 11 B is the sectional view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model second, wherein the figure illustrates the arrangement of each passage of this Water route integrated device of the water treatment system according to the utility model second preferred embodiment.

Figure 11 C is the sectional view of the Water route integrated device of the water treatment system complying with the preferred embodiment of above-mentioned the utility model second, wherein the figure illustrates the arrangement of each interface of this Water route integrated device of the water treatment system according to the utility model second preferred embodiment.

Figure 11 D is the control module of control unit of water treatment system and the connection diagram of other parts of this water treatment system of complying with the preferred embodiment of above-mentioned the utility model second.

Figure 12 is according to each passage of Water route integrated device of above-mentioned the utility model second preferred embodiment and the connection diagram of other each parts of interface and water treatment system.

Figure 13 is the stereographic map of the water treatment system according to the utility model the 3rd preferred embodiment.

Figure 14 A is the vertical view of the Water route integrated device of the water treatment system complying with above-mentioned the utility model the 3rd preferred embodiment.

Figure 14 B is the sectional view of the Water route integrated device of the water treatment system complying with above-mentioned the utility model the 3rd preferred embodiment, wherein the figure illustrates the arrangement of each passage of this Water route integrated device of the water treatment system according to the utility model the 3rd preferred embodiment.

Figure 14 C is the sectional view of the Water route integrated device of the water treatment system complying with above-mentioned the utility model the 3rd preferred embodiment, wherein the figure illustrates the arrangement of each interface of this Water route integrated device of the water treatment system according to the utility model the 3rd preferred embodiment.

Figure 14 D is the control module of control unit of water treatment system and the connection diagram of other parts of this water treatment system of complying with above-mentioned the utility model the 3rd preferred embodiment.

Figure 15 is each passage of Water route integrated device of water treatment system and the connection diagram of other each parts of interface and water treatment system of complying with above-mentioned the utility model the 3rd preferred embodiment.

Figure 16 A is the stereographic map of a kind of optional enforcement of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 16 B is the vertical view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 16 C is the sectional view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 17 is each passage of Water route integrated device of above-mentioned optional enforcement and the connection diagram of other each parts of interface and water treatment system of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 18 A is the stereographic map of the optional enforcement of another kind of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 18 B is the vertical view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 18 C is the sectional view of the Water route integrated device of the above-mentioned optional enforcement of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 19 is each passage of Water route integrated device of above-mentioned optional enforcement and the connection diagram of other each parts of interface and water treatment system of water treatment system according to the utility model the 3rd preferred embodiment.

Figure 20 is the stereographic map of the water treatment system according to the utility model the 4th preferred embodiment.

Figure 21 is the connection diagram according to the passage of Water route integrated device of above-mentioned the utility model the 4th preferred embodiment, interface and each parts of water treatment system.

Figure 22 is the method flow diagram manufactured for Water route integrated device according to above-mentioned the utility model the 4th preferred embodiment.

Figure 23 is the control module of control unit of water treatment system and the connection diagram of other parts of this control unit of complying with above-mentioned the utility model the 4th preferred embodiment.

Figure 24 is the method flow diagram manufactured for Water route integrated device according to the above-mentioned preferred embodiment of the utility model.

Figure 25 is the method flow diagram manufactured for Water route integrated device according to the another kind of the above-mentioned preferred embodiment of the utility model.

Figure 26 is the method flow diagram manufactured for Water route integrated device according to the another kind of the above-mentioned preferred embodiment of the utility model.

Embodiment

Following description is disclosed to make those skilled in the art can manufacture and use the utility model.The preferred embodiment provided in following description is only as the example that it will be apparent to those skilled in the art and amendment, and it does not form the restriction to the utility model scope.The General Principle defined in following description is applied to other embodiment, optionally substitutes with can not deviating from the utility model spirit and utility model scope, amendment, equivalent implement and apply.

Shown in Fig. 1 to Fig. 5 of reference the utility model patent application specification accompanying drawing, the Water route integrated device 1 for water treatment system according to the utility model first preferred embodiment comprises a water route integrated ontology 10, wherein this water route integrated ontology 10 has two the first sides 11, wherein this water route integrated ontology 10 has a first channel 1001, a second passage 1002 and a third channel 1003, first interface 1101, second interface 1102, 3rd interface 1103, 4th interface 1104, 5th interface 1105, 6th interface 1106, 7th interface 1107, 8th interface 1108 and the 9th interface 1109, wherein this first channel 1001, this second passage 1002 is spaced apart in this water route integrated ontology 10 respectively with this third channel 1003, wherein this first interface 1101, this second interface 1102, 3rd interface 1103, 4th interface 1104, 5th interface 1105, 6th interface 1106, 7th interface 1107, 8th interface 1108 and the 9th interface 1,109 first side 11 at this water route integrated ontology 10 spaced apart respectively, wherein this second interface 1102 is connected with this first channel 1001 respectively with the 3rd interface 1103, 4th interface 1104 is connected with this second passage 1002 respectively with the 5th interface 1105, 6th interface 1106 is connected with this third channel 1003 respectively with the 8th interface 1108.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, the water treatment system of the utility model first preferred embodiment comprises a Water route integrated device 1, first unit for treating water 20 and second unit for treating water 30, wherein this first unit for treating water 20 comprises at least one the first strainer 21 and a hydraulic pressure producer 22, this second unit for treating water 30 comprises second strainer 31 and a first flow controller 32, this Water route integrated device 1 comprises a water route integrated ontology 10, wherein this water route integrated ontology 10 has two the first sides 11, wherein this water route integrated ontology 10 has a first channel 1001, a second passage 1002 and a third channel 1003, first interface 1101, second interface 1102, 3rd interface 1103, 4th interface 1104, 5th interface 1105, 6th interface 1106, 7th interface 1107, 8th interface 1108 and the 9th interface 1109, wherein this first channel 1001, this second passage 1002 is spaced apart in this water route integrated ontology 10 respectively with this third channel 1003, wherein this first interface 1101, this second interface 1102, 3rd interface 1103, 4th interface 1104, 5th interface 1105, 6th interface 1106, 7th interface 1107, 8th interface 1108 and the 9th interface 1,109 first side 11 at this water route integrated ontology 10 spaced apart respectively, wherein this second interface 1102 is connected with this first channel 1001 respectively with the 3rd interface 1103, 4th interface 1104 is connected with this second passage 1002 respectively with the 5th interface 1105, 6th interface 1106 is connected with this third channel 1003 respectively with the 8th interface 1108, wherein this first strainer 21 is connected with this first interface 1101 and this second interface 1102 respectively, this hydraulic pressure producer 22 is connected with the 3rd interface 1103 and the 4th interface 1104 respectively, this second strainer 31 is connected with the 5th interface 1105, the 6th interface 1106 and the 7th interface 1107 respectively, and this first flow controller 32 is connected with the 8th interface 1108 and the 9th interface 1109 respectively.Preferably, process water after the process obtained through the second unit for treating water 30, as pure water, flow out from the 7th interface 1107 of the water route integrated ontology 10 of this Water route integrated device 1.More preferably, this hydraulic pressure producer 22 is water pumps.

It should be noted that this first interface 1101, this second interface 1102, the 3rd interface 1103, the 4th interface 1104, the 5th interface 1105, the 6th interface 1106, the 7th interface 1107, the 8th interface 1108 and the 9th interface 1109 this first side 11 at this water route integrated ontology 10 spaced apart respectively, also can two these the first sides 11 at this water route integrated ontology 10 spaced apart respectively.In other words, these two the first sides 11 can be respectively arranged with at least one in this first interface 1101, this second interface 1102, the 3rd interface 1103, the 4th interface 1104, the 5th interface 1105, the 6th interface 1106, the 7th interface 1107, the 8th interface 1108 and the 9th interface 1109.

It will be appreciated by those skilled in the art that, this first strainer 21 can be any filtration unit that can carry out purifying treatment to pending water, if this first strainer 21 can be PP cotton strainer, activated charcoal filter, ultra filtration filter or ion-exchange type filter.In addition, this first unit for treating water 20 can comprise two or more first strainer 21, and when this first unit for treating water 20 comprises plural first strainer 21, this first strainer 21 can be connected by series connection, also can be that parallel connection is connected.Preferably, when this first unit for treating water 20 comprises plural first strainer 21, this first strainer 21 is various dissimilar strainers respectively.

Alternatively, this first unit for treating water 20 comprises two the first strainers 21, and these two the first strainers 21 are connected by series connection.In some other embodiment, these two the first strainers 21 also can be connected in parallel.

It should be noted that in actual use, the flow direction of water is generally flow to this second unit for treating water 30 from the first unit for treating water 20.At the first unit for treating water 20, pending water through primary filter, to remove large particulate matter and/or the material of some structure unit of the second unit for treating water 30 may be damaged, as chlorine etc.At the second unit for treating water 30, by high-precision filter, as RO film or nanofiltration membrane etc. carry out second-stage treatment to the water after primary treatment, thus water after obtaining high-quality process.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has a four-way 1004 further, tenth interface 1110 and the 11 interface 1111, this second unit for treating water 30 of this water treatment system comprises a conducting valve 33 further, wherein this four-way 1004 is set up and is connected with this third channel 1003 and the tenth interface 1110 respectively, this conducting valve 33 is set up and is connected with the tenth interface 1110 and the 11 interface 1111 respectively, thus make when this second unit for treating water 30 is in normal water treated state, this conducting valve 33 is closed, when this second unit for treating water 30 is in flushing state, this conducting valve 33 is opened.In other words, in fact, the regulation and control of the working order of this second unit for treating water 30, realized by this conducting valve 33, when this conducting valve 33 is closed, the water of this third channel 1003 is discharged by this first flow controller 32, when this conducting valve 33 is opened, the water of this third channel 1003 is discharged by this conducting valve 33, and the working order of this second unit for treating water 30 is adjusted to the second strainer 31 rinses state.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, this water treatment system according to the utility model first preferred embodiment comprises a control unit 40 further, and wherein this control unit 40 comprises first control valve 41 and a control module 42.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has Five-channel 1005, Hexamermis spp, 1006, the 12 interface 1112 and the 13 interface 1113 further, wherein this Five-channel 1005 is connected with the 12 interface 1112, and this Hexamermis spp 1006 is connected with the 13 interface 1113 with this first interface 1101 respectively.Now, this first strainer 21 can directly be connected with this second interface 1102 and indirectly be connected with this first interface 1101.In other words, this first strainer 21 directly can be connected with this second interface 1102 and indirectly be connected with this first interface 1101 with this Hexamermis spp 1006 with by this Five-channel the 1005, the 12 interface 1112, this first control valve the 41, the 13 interface 1113.It will be appreciated by those skilled in the art that, because the water route integrated ontology 10 of this Water route integrated device 1 is provided with first interface 1101, and this first strainer 21 of this first unit for treating water 20 is connected with this second interface 1102 with this first interface 1101 respectively, therefore, pending water can flow into from this first interface 1101, and flows to this first strainer 21 of this first unit for treating water 20 from this first interface 1101.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, this control module 42 according to the control unit 40 of this water treatment system of the utility model first preferred embodiment can be connected with this first control valve 41 with being energized, and be set up the folding that can control this first control valve 41, wherein this first control valve 41 is connected with the 12 interface 1112 and the 13 interface 1113, to control the flowing of current between this Five-channel 1005 and this Hexamermis spp 1006 respectively.It will be understood by those skilled in the art that this first control valve 41 is anyly can be controlled the valve that is opened and closed, as magnetic valve by this control module 42.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has the 7th path 10 07, the 14 interface 1114 and the 15 interface 1115 further, and wherein the 7th path 10 07 is connected with the 14 interface 1114 with the 7th interface 1107 respectively.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, this second unit for treating water 30 according to this water treatment system of the utility model first preferred embodiment comprises the 3rd strainer 34 further, and wherein the 3rd strainer 34 is connected with the 14 interface 1114 and the 15 interface 1115 respectively.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment comprises the 16 interface 1116 and the 8th path 10 08 further, the control unit 40 of this water treatment system comprises a high-voltage switch gear 43 further, wherein the 8th path 10 08 is connected with the 7th path 10 07, 16 interface 1116 is connected with the 8th path 10 08, wherein this high-voltage switch gear 43 is connected with the 16 interface 1116 and can be connected with being energized with this control module 42 of this control unit 40, wherein this control module 42 is set up the pressure signal that can receive this high-voltage switch gear 43, and when the pressure that this high-voltage switch gear 43 detects is higher than a high pressure preset value, this water treatment system is shut down and stops the process to water.Preferably, when the pressure that this high-voltage switch gear 43 detects is lower than a start preset value, the control unit 40 of this water treatment system will start this water treatment system and start water treatment.In other words, this high-voltage switch gear 43 can detect the pressure of the water of the 8th path 10 08, and when the pressure of the water that this high-voltage switch gear 43 detects is higher than a high pressure preset value, this control module 42 is set up and can controls the process of this water treatment system stopping to pending water.That is; when the pressure of the water that this high-voltage switch gear 43 detects is higher than a high pressure preset value; this high-voltage switch gear 43 generates one and shuts down pressure signal; this control module 42 is set up the shutdown pressure signal that can receive this high-voltage switch gear 43; and according to being received from the shutdown pressure signal of this high-voltage switch gear 43, control the process of this water treatment system stopping to pending water.Preferably, when the pressure of the water that this high-voltage switch gear 43 detects is lower than a start preset value, this high-voltage switch gear 43 generates a start pressure signal, this control module 42 is set up the start pressure signal that can receive this high-voltage switch gear 43, and according to being received from the start pressure signal of this high-voltage switch gear 43, control to start this water treatment system to the process of pending water.In other words, when the pressure that this high-voltage switch gear 43 detects is lower than a start preset value, the control unit 40 of this water treatment system will start this water treatment system and start water treatment.

Be understandable that, the 8th path 10 08 can directly or indirectly be connected with the 7th interface 1107.

As shown in Fig. 1 Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment comprises the 17 interface 1117 further, the control unit 40 of this water treatment system comprises a low-tension switch 44 further, wherein the 17 interface 1117 is connected with this Hexamermis spp 1006, wherein this low-tension switch 44 is connected with the 17 interface 1117 and can be connected with being energized with this control module 42 of this control unit 40, wherein this control module 42 is set up the pressure signal that can receive this low-tension switch 44, and when the pressure that this low-tension switch 44 detects is lower than a low pressure preset value, stop the water treatment of this water treatment system.In other words, this low-tension switch 44 can detect the pressure of the water of this Hexamermis spp 1006, and when the pressure of the water that this low-tension switch 44 detects is lower than a low pressure preset value, this control module 42 is set up and can controls the process of this water treatment system stopping to pending water.That is; when the pressure of the water that this low-tension switch 44 detects is lower than a preset value; this low-tension switch 44 generates one and shuts down pressure signal; this control module 42 is set up the shutdown pressure signal that can receive this low-tension switch 44; and when the pressure that this low-tension switch 44 detects is lower than a low pressure preset value; according to the shutdown pressure signal being received from this low-tension switch 44, control the water treatment of this water treatment system stopping to pending water.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has the 18 interface 1118 and the 19 interface 1119 further, the control unit 40 of this water treatment system comprises second control valve 45 further, wherein the 18 interface 1118 is connected with the 7th interface 1107,19 interface 1119 is connected with the 7th path 10 07, and this second control valve 45 is connected with the 18 interface 1118 and the 19 interface 1119 respectively.In other words, this second control valve 45 is arranged on the 7th path 10 07 to control the flowing of water in the 7th path 10 07.Preferably, this second control valve 45 is check valves, and this second control valve 45 allow current from the 18 interface 1118 to the flowing in the 19 interface 1119 direction and stop current from the 19 interface 1119 to the flowing in the 18 interface 1118 direction.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has a water-in 101, first water outlet 102 and second water outlet 103 further, wherein this water-in 101 is connected with this first interface 1101, this first water outlet 102 is connected with the 9th interface 1109, and this second water outlet 103 is connected with the 7th interface 1107.In other words, when this water treatment system is in normal water treated state, pending water enters this water treatment system by this water-in 101, and pass through the process of this first unit for treating water 20 and this second unit for treating water 30 successively, obtain processed rear water, as pure water, and waste water, after the process wherein obtained, water flows to this second water outlet 103 through the 7th interface 1107, and this waste water (being actually remaining water to be discharged after the second unit for treating water 30 processes) flows to this first water outlet 102 through this third channel 1003 and discharges.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model first preferred embodiment has the 3rd water outlet 104 further, wherein the 3rd water outlet 103 is connected with the 8th path 10 08, and the 16 interface 1116 is located between the 7th interface 1107 and the 3rd water outlet 104.

As shown in Fig. 1 to Fig. 5 of accompanying drawing, the water treatment system according to the utility model first preferred embodiment comprises a tank 50 further, and wherein this tank 50 is connected with the 3rd water outlet 104.Preferably, this tank 50 is pressurized vessels, and the water capacity in this pressurized vessel is when reaching some amount, pressure in it can rise and be detected by this high-voltage switch gear 43, if when the pressure that this high-voltage switch gear 43 detects is higher than a high pressure preset value, the control unit 40 of this water treatment system will stop the water treatment of this water treatment system.More preferably, when the pressure that this high-voltage switch gear 43 detects is lower than a start preset value, the control unit 40 of this water treatment system will start this water treatment system and start water treatment.

As shown in Fig. 4 D of accompanying drawing, this control module 42 according to this control unit 40 of the water treatment system of the utility model first preferred embodiment can be connected with this conducting valve 33 with this hydraulic pressure producer 22 respectively with being energized, and wherein this control module 42 can be set up the startup that can control this hydraulic pressure producer 22 and this conducting valve 33 and close down.Preferably; this control module 42 of this control unit 40 can be connected with this low-tension switch 44 with this first control valve 41 respectively with being energized; wherein this control module 42 be set up can receive shut down pressure signal from one of this low-tension switch 44 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water.This control module 42 of this control unit 40 also can send an out code to this first control valve 41, enters a closure state to control this first control valve 41.More preferably, this control module 42 of this control unit 40 can be connected with this high-voltage switch gear 44 with being energized, wherein this control module 42 be set up can receive shut down pressure signal from one of this high-voltage switch gear 43 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water; When receiving a start pressure signal from this high-voltage switch gear 43, this control module 42 sends a start-up command to this hydraulic pressure producer 22 and controls the water treatment of this water treatment system startup to pending water.As shown in Fig. 6 A to Fig. 7 of accompanying drawing, the optional enforcement of one according to the water treatment system of the utility model first preferred embodiment is illustrated, wherein this Five-channel 1005 of the water route integrated ontology 10 of the Water route integrated device 1 of this optional enforcement is connected with the 12 interface 1112, this Hexamermis spp 1006 is connected with the 13 interface 1113 with this first interface 1101 respectively, and this first strainer 21 is directly connected with this first interface 1101 and is indirectly connected with this second interface 1102.In other words, this first strainer 21 and this first interface 1101 are directly connected and are indirectly connected with this second interface 1102 with this Five-channel 1005 with by this Hexamermis spp the 1006, the 13 interface 1113, this first control valve the 41, the 12 interface 1112.

As shown in Fig. 8 to Fig. 9 D of accompanying drawing, the optional enforcement of one according to the water treatment system of the utility model first preferred embodiment is illustrated, and the tank 50A of wherein this optional enforcement is connected with the 7th interface 1107 and can receives the water from the 7th interface 1107.Preferably, this control unit 40 comprises a detector 47, wherein this detector 47 is set up the moisture storage capacity that can detect in this tank 50A, and the moisture storage capacity in this tank 50A that this detector 47 detects is when being not less than first water yield preset value, this control module 40 can control the process that this water treatment system stops pending water.More preferably, this detector 47 is set up the moisture storage capacity that can detect in this tank 50A, and the moisture storage capacity in this tank 50A that this detector 47 detects not higher than second water yield preset value time, this control module 40 can start this water treatment system and carry out water treatment to pending water.In certain embodiments, this detector 47 is configured to whether stored up the full operation that controls this water treatment system and/or out of service by the water detected in this tank 50A, when this detector 47 water detected in this tank 50A stores up full, this control module 40 controls the water treatment of this water treatment system stopping to pending water.

As shown in Fig. 9 D of accompanying drawing, this control module 42 according to this control unit 40 of the water treatment system of the utility model first preferred embodiment can be connected with this conducting valve 33 with this hydraulic pressure producer 22 respectively with being energized, and wherein this control module 42 can be set up the startup that can control this hydraulic pressure producer 22 and this conducting valve 33 and close down.Preferably; this control module 42 of this control unit 40 can be connected with this low-tension switch 44 with this first control valve 41 respectively with being energized; wherein this control module 42 be set up can receive shut down pressure signal from one of this low-tension switch 44 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water.This control module 42 of this control unit 40 also can send an out code to this first control valve 41, enters a closure state to control this first control valve 41.More preferably, this control module 42 of this control unit 40 can be connected with this detector 47 with being energized, wherein this detector 47 is configured to when detecting that the storage of the water in this tank 50A is full, this detector 47 generates a stopping signal, wherein be set up can when receiving this stopping signal from this detector 47 for this control module 42, and this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water; When moisture storage capacity in this tank 50A that this detector 47 detects is not higher than second water yield preset value, this detector 47 generates a starting-up signal, wherein be set up can when receiving this starting-up signal from this detector 47 for this control module 40, and this control module 42 sends a start-up command to this hydraulic pressure producer 22 and controls this water treatment system and starts water treatment to pending water.With reference to the Figure 10 to Figure 12 of the accompanying drawing, water treatment system according to the utility model second preferred embodiment is illustrated, wherein compared with this first preferred embodiment above-mentioned, water route integrated ontology 10 according to the Water route integrated device 1 of the water treatment system of the utility model second preferred embodiment has the 9th path 10 09 and the tenth path 10 10 further, wherein the 9th path 10 09 is connected with the tenth path 10 10 with the 9th interface 1109 respectively, and the tenth path 10 10 is connected with the 3rd interface 1103.It will be appreciated by those skilled in the art that, the existence of the 9th path 10 09 and the tenth path 10 10, bootable stream flows from current direction the 3rd interface 1103 of this third channel 1003, thus stream is recycled, to improve the pure water yield ratio of the second unit for treating water 30 from the water of this third channel 1003.

As shown in Figure 10 to Figure 12 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model second preferred embodiment has the 20 interface 1120 and the 21 interface 1121 further, the control unit 40 of this water treatment system comprises the 3rd control valve 46 further, wherein the 20 interface 1120 is connected with the 9th path 10 09,21 interface 1121 is connected with the tenth path 10 10, and wherein the 3rd control valve 46 is connected with the 20 interface 1120 and the 21 interface 1121 respectively.Preferably, the 3rd control valve 46 is check valves, and the 3rd control valve 46 allow current from the 9th path 10 09 to the flowing of the tenth path 10 10 and stop current from the tenth path 10 10 to the flowing of the 9th path 10 09.

As shown in Figure 10 to Figure 12 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model second preferred embodiment has the 22 interface 1122, the 23 interface 1123 and the 12 passage 1012 further, wherein the 12 passage 1012 is connected with the 22 interface 1122 with the 9th interface 1109 respectively, and the 23 interface 1123 is connected with this first water outlet 102.

As shown in Figure 10 to Figure 12 of accompanying drawing, this second unit for treating water 30 according to the water treatment system of the utility model second preferred embodiment comprises a second amount controller 35 further, and wherein this second amount controller 35 is connected with the 22 interface 1122 and the 23 interface 1123 respectively.

As shown in Figure 10 to Figure 12 of accompanying drawing, water route integrated ontology 10 according to this Water route integrated device 1 of the utility model second preferred embodiment has the 4th water outlet 105 and the 11 path 10 11 further, wherein the 11 path 10 11 is connected with the 4th water outlet 105 with this first channel 1001 respectively, thus the water flowing through this first channel 1001 can be flowed out from the 4th water outlet 105.In other words, pending water after processing through the first strainer 21 of the first processing unit 20, can flow out through this first channel the 1001, the 11 path 10 11 and the 4th water outlet 105 and directly be used.Therefore, this water treatment system can provide two kinds to purify waste water, be that pending water processes through the first strainer 21 of the first unit for treating water 20 the first class purification water obtained, and this first class purification water process the secondary purification water obtained further through this second unit for treating water 30.If this second unit for treating water 30 utilizes RO film to carry out reprocessing to first class purification water, be then just commonly referred to as the secondary purification water of pure water or pure water.

As shown in Figure 11 D of accompanying drawing, this control module 42 according to this control unit 40 of the water treatment system of the utility model second preferred embodiment can be connected with this conducting valve 33 with this hydraulic pressure producer 22 respectively with being energized, and wherein this control module 42 can be set up the startup that can control this hydraulic pressure producer 22 and this conducting valve 33 and close down.Preferably; this control module 42 of this control unit 40 can be connected with this low-tension switch 44 with this first control valve 41 respectively with being energized; wherein this control module 42 be set up can receive shut down pressure signal from one of this low-tension switch 44 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water.This control module 42 of this control unit 40 also can send an out code to this first control valve 41, enters a closure state to control this first control valve 41.More preferably, this control module 42 of this control unit 40 can be connected with this high-voltage switch gear 44 with being energized, wherein this control module 42 be set up can receive shut down pressure signal from one of this high-voltage switch gear 43 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water; When receiving a start pressure signal from this high-voltage switch gear 43, this control module 42 sends a start-up command to this hydraulic pressure producer 22 and controls the water treatment of this water treatment system startup to pending water.

With reference to the Figure 13 to Figure 15 of the accompanying drawing, water treatment system according to the utility model the 3rd preferred embodiment is illustrated, wherein compare with the second preferred embodiment with this first preferred embodiment above-mentioned, water route integrated ontology 10 according to the Water route integrated device 1 of the water treatment system of the utility model the 3rd preferred embodiment has the 24 interface 1124 further, 25 interface 1125, 26 interface 1126, 27 interface 1127, tenth triple channel 1013, tenth four-way 1014, wherein the tenth triple channel 1013 is connected with the 24 interface 1124 with this first interface 1101 respectively, tenth four-way 1014 is connected with the 27 interface 1127 with this second interface 1102 respectively, 25 interface 1125 is connected with this Hexamermis spp 1006, 26 interface 1126 is connected with this Five-channel 1005, first unit for treating water 20 of water treatment system comprises two the first strainers 21, one of them first strainer 21 is connected with the 24 interface 1124 and the 25 interface 1125 respectively, another first strainer 21 is connected with the 26 interface 1126 and the 27 interface 1127 respectively.

As shown in Figure 14 D of accompanying drawing, this control module 42 according to this control unit 40 of the water treatment system of the utility model the 3rd preferred embodiment can be connected with this conducting valve 33 with this hydraulic pressure producer 22 respectively with being energized, and wherein this control module 42 can be set up the startup that can control this hydraulic pressure producer 22 and this conducting valve 33 and close down.Preferably; this control module 42 of this control unit 40 can be connected with this low-tension switch 44 with this first control valve 41 respectively with being energized; wherein this control module 42 be set up can receive shut down pressure signal from one of this low-tension switch 44 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water.This control module 42 of this control unit 40 also can send an out code to this first control valve 41, enters a closure state to control this first control valve 41.More preferably, this control module 42 of this control unit 40 can be connected with this high-voltage switch gear 44 with being energized, wherein this control module 42 be set up can receive shut down pressure signal from one of this high-voltage switch gear 43 time, this control module 42 sends a stop instruction to this hydraulic pressure producer 22 and controls the water treatment that this water treatment system stops pending water; When receiving a start pressure signal from this high-voltage switch gear 43, this control module 42 sends a start-up command to this hydraulic pressure producer 22 and controls the water treatment of this water treatment system startup to pending water.

As shown in Figure 16 A to Figure 17 of accompanying drawing, the optional enforcement of one according to the water treatment system of the utility model the 3rd preferred embodiment is illustrated, wherein this water route integrated ontology 10 of this water treatment system has a 24 interface 1124A further, a 25 interface 1125A, a 26 interface 1126A, a 27 interface 1127A, a tenth triple channel 1013A, a tenth four-way 1014A, wherein the tenth triple channel 1013A is connected with the 24 interface 1124A with this first interface 1101 respectively, tenth four-way 1014A is connected with the 26 interface 1126A with the 25 interface 1125A respectively, 27 interface 1127A is connected with this Hexamermis spp 1006, this Five-channel 1005 is connected with this second interface 1102.Therefore, when this first unit for treating water 20 comprises two the first strainers 21, one of them first strainer 21 can be connected with the 24 interface 1124A and the 25 interface 1125A respectively, and another first strainer 21 is connected with the 26 interface 1126A and the 27 interface 1127A respectively.

As shown in Figure 18 A to Figure 19 of accompanying drawing, the optional enforcement of one according to the water treatment system of the utility model the 3rd preferred embodiment is illustrated, wherein this water route integrated ontology 10 of this water treatment system has a 24 interface 1124B further, a 25 interface 1125B, a 26 interface 1126B, a 27 interface 1127B, a tenth triple channel 1013B, a tenth four-way 1014B, wherein the tenth triple channel 1013B is connected with the 24 interface 1124B with this first interface 1101 respectively, tenth four-way 1014B is connected with the 27 interface 1127B with the 26 interface 1126B respectively, wherein this Hexamermis spp 1006 is connected with the 24 interface 1124B, this Five-channel 1005 is connected with the 25 interface 1125B, first strainer 21 of this first unit for treating water 20 is connected with the 25 interface 1125B and the 26 interface 1126B respectively, another first strainer 21 is connected with this second interface 1102 and the 27 interface 1127B respectively.

It should be noted that, this first interface 1101 of the water route integrated ontology 10 of this Water route integrated device 1, this second interface 1102, 3rd interface 1103, 4th interface 1104, 5th interface 1105, 6th interface 1106, 7th interface 1107, 8th interface 1108, 9th interface 1109, tenth interface 1110, 11 interface 1111, 12 interface 1112, 13 interface 1113, 14 interface 1114, 15 interface 1115, 16 interface 1116, 17 interface 1117, 18 interface 1118, 19 interface 1119, 20 interface 1120, 21 interface 1121, 22 interface 1122, 23 interface 1123, 24 interface 1124, 25 interface 1125, 26 interface 1126 and the 27 interface 1127 can be separately positioned on same first side 11, also two different the first sides 11 can be separately positioned on.

It is any all parts that can allow water treatment system described herein that those skilled in the art can understand described interface herein, as the structure that this first strainer 21, this hydraulic pressure producer 22, this second strainer 31, the 3rd strainer 34, this first flow controller 32, this conducting valve 33, this first control valve 41, this second control valve 45, this high-voltage switch gear 43, this low-tension switch 44 etc. are connected with above-mentioned the utility model Water route integrated device 1.Such as, each interface of above-mentioned the utility model Water route integrated device 1, as first interface 1101 and the second interface 1102 are set to a socket respectively, then this first strainer of this water treatment system is set up and has two plug constructions, can be removably connected with this second interface 1102 with this first interface 1101 to make this first strainer 21 of this water treatment system.Preferably, the all parts of water treatment system described herein, as this first strainer 21, this hydraulic pressure producer 22, this second strainer 31, the 3rd strainer 34, this first flow controller 32, this conducting valve 33, this first control valve 41, this second control valve 45, this high-voltage switch gear 43, this low-tension switch 44 etc. are removably disposed in the corresponding interface of this Water route integrated device 1.Alternatively, the all parts of water treatment system described herein, is arranged on the corresponding interface of this Water route integrated device 1 as one-body moldedly in this first strainer 21, this hydraulic pressure producer 22, this second strainer 31, the 3rd strainer 34, this first flow controller 32, this conducting valve 33, this first control valve 41, this second control valve 45, this high-voltage switch gear 43, this low-tension switch 44 etc.

Shown in Figure 20 and Figure 21 of reference the utility model patent application specification accompanying drawing, the Water route integrated device for water treatment system according to the utility model the 4th preferred embodiment comprises a water route integrated ontology 10D, wherein this water route integrated ontology 10D has two the first side 11D, wherein this water route integrated ontology 10D has a first channel 1001D, a second passage 1002D and third channel 1003D, a first interface 1101D, a second interface 1102D, a 3rd interface 1103D, a 4th interface 1104D, a 5th interface 1105D, a 6th interface 1106D, a 7th interface 1107D, 8th interface 1108D and the 9th interface 1109D, wherein this first channel 1001D, this second passage 1002D and this third channel 1003D is spaced apart in the integrated ontology 10D of this water route respectively, wherein this first interface 1101D, this second interface 1102D, 3rd interface 1103D, 4th interface 1104D, 5th interface 1105D, 6th interface 1106D, 7th interface 1107D, 8th interface 1108D and a 9th interface 1109D first side 11D at this water route integrated ontology 10D spaced apart respectively, wherein this second interface 1102D is connected with this first channel 1001D respectively with the 3rd interface 1103D, 4th interface 1104D is connected with this second passage 1002D respectively with the 5th interface 1105D, 6th interface 1106D is connected with this third channel 1003D respectively with the 8th interface 1108D.

As shown in Figure 20 and Figure 21 of accompanying drawing, the water treatment system of the utility model the 4th preferred embodiment comprises a Water route integrated device, a first unit for treating water 20D and second unit for treating water 30D, wherein this first unit for treating water 20D comprises at least one first strainer 21D and hydraulic pressure producer 22D, this second unit for treating water 30D comprises an a second strainer 31D and first flow controller 32D, this Water route integrated device comprises a water route integrated ontology 10D, wherein this water route integrated ontology 10D has two the first side 11D, wherein this water route integrated ontology 10D has a first channel 1001D, a second passage 1002D and third channel 1003D, a first interface 1101D, a second interface 1102D, a 3rd interface 1103D, a 4th interface 1104D, a 5th interface 1105D, a 6th interface 1106D, a 7th interface 1107D, 8th interface 1108D and the 9th interface 1109D, wherein this first channel 1001D, this second passage 1002D and this third channel 1003D is spaced apart in the integrated ontology 10D of this water route respectively, wherein this first interface 1101D, this second interface 1102D, 3rd interface 1103D, 4th interface 1104D, 5th interface 1105D, 6th interface 1106D, 7th interface 1107D, 8th interface 1108D and a 9th interface 1109D first side 11D at this water route integrated ontology 10D spaced apart respectively, wherein this second interface 1102D is connected with this first channel 1001D respectively with the 3rd interface 1103D, 4th interface 1104D is connected with this second passage 1002D respectively with the 5th interface 1105D, 6th interface 1106D is connected with this third channel 1003D respectively with the 8th interface 1108D, wherein this first strainer 21D is connected with this first interface 1101D and this second interface 1102D respectively, this hydraulic pressure producer 22D is connected with the 3rd interface 1103D and the 4th interface 1104D respectively, this second strainer 31D is connected with the 5th interface 1105D, the 6th interface 1106D and the 7th interface 1107D respectively, and this first flow controller 32D is connected with the 8th interface 1108D and the 9th interface 1109D respectively.Preferably, water after the process that the second unit for treating water 30D process obtains, as pure water, flows out from the 7th interface 1107D of the water route integrated ontology 10D of this Water route integrated device.More preferably, this hydraulic pressure producer 22D is a water pump.

It will be appreciated by those skilled in the art that, this first strainer 21D can be any filtration unit that can carry out purifying treatment to pending water, if this first strainer 21D can be PP cotton strainer, activated charcoal filter, ultra filtration filter or ion-exchange type filter.In addition, this first unit for treating water 20D can comprise two or more first strainer 21D, and when this first unit for treating water 20D comprises plural first strainer 21D, this first strainer 21D can be connected by series connection, also can be that parallel connection is connected.Preferably, when this first unit for treating water 20D comprises plural first strainer 21D, this first strainer 21D is various dissimilar strainers respectively.

As shown in Figure 20 and Figure 21 of accompanying drawing, this first unit for treating water 20D comprises two the first strainer 21D, and these two the first strainer 21D are connected by series connection.In some other embodiment, these two the first strainer 21D also can be connected in parallel.

It should be noted that in actual use, the flow direction of water is generally flow to this second unit for treating water 30D from the first unit for treating water 20D.At the first unit for treating water 20D, pending water through primary filter, to remove large particulate matter and the material of the second unit for treating water 30D may be damaged, as chlorine etc.At the second unit for treating water 30D, by high-precision filter, as RO film or nanofiltration membrane etc. carry out second-stage treatment to the water after primary treatment, thus water after obtaining high-quality process.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a four-way 1004D further, tenth interface 1110D and a 11 interface 1111D, this second unit for treating water 30D of this water treatment system comprises a conducting valve 33D further, wherein this four-way 1004D is set up and is connected with this third channel 1003D and the tenth interface 1110D respectively, this conducting valve 33D is set up and is connected with the tenth interface 1110D and the 11 interface 1111D, thus make when this second unit for treating water 30D is in normal water treated state, this conducting valve 33D is closed, when this second unit for treating water 30D is in flushing state, this conducting valve 33D is opened.In other words, in fact, the regulation and control of the working order of this second unit for treating water 30D, realized by this conducting valve 33D, when this conducting valve 33D is closed, the water flowing through this third channel 1003D is discharged by this first flow controller 32D, when this conducting valve 33D is opened, the water flowing through this third channel 1003D is discharged by this conducting valve 33D, and the working order of this second unit for treating water 30D is adjusted to the second strainer 31D flushing state.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a Five-channel 1005D and Hexamermis spp 1006D further, wherein this Five-channel 1005D is connected with this Hexamermis spp 1006D with the 9th interface 1109D respectively, and this Hexamermis spp 1006D is connected with the 3rd interface 1103D.It will be appreciated by those skilled in the art that, the existence of Five-channel 1005D and Hexamermis spp 1006D, bootable stream flows from current direction the 3rd interface 1103D of this third channel 1003D, thus stream is recycled, to improve the pure water yield ratio of the second unit for treating water 30D from the water of this third channel 1003D.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 7th path 10 07D, the 12 interface 1112D and a 13 interface 1113D further, and wherein the 7th path 10 07D is connected with the 12 interface 1112D with the 7th interface 1107D respectively.

As shown in Figure 21 and Figure 22 of accompanying drawing, this second unit for treating water 30D according to this water treatment system of the utility model the 4th preferred embodiment comprises a 3rd strainer 34D further, and wherein the 3rd strainer 34D is connected with the 12 interface 1112D and the 13 interface 1113D respectively.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 8th path 10 08D, the 9th path 10 09D, the 14 interface 1114D and a 15 interface 1115D further, wherein the 8th path 10 08D is connected with the 15 interface 1115D with this second interface 1102D respectively, and the 9th path 10 09D is connected with the 14 interface 1114D with this first interface 1101D respectively.Now, this first strainer 21D directly can be connected with this second interface 1102D and indirectly be connected with this first interface 1101D with the 9th path 10 09D with by the 8th path 10 08D, the 15 interface 1115D, this first control valve 41D, the 14 interface 1114D, or is directly connected with this first interface 1101D and is indirectly connected with this second interface 1102D with the 8th path 10 08D with by the 9th path 10 09D, the 14 interface 1114D, this first control valve 41D, the 15 interface 1115D.

As shown in Figure 20 and Figure 21 of accompanying drawing, this water treatment system according to the utility model the 4th preferred embodiment comprises a control unit 40D further, wherein this control unit 40D comprises a first control valve 41D and control module 42D, wherein this control module 42D can be connected with this first control valve 41D with being energized, and be set up the folding that can control this first control valve 41D, wherein this first control valve 41D is connected with the 14 interface 1114D and the 15 interface 1115D respectively, to control the flowing of current between the 8th path 10 08D and the 9th path 10 09D.It will be understood by those skilled in the art that this first control valve 41D be any can by this control module 42D control with open and close valve, as magnetic valve.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 16 interface 1116D further, the control unit 40D of this water treatment system comprises a first pressure switch 43D further, wherein the 16 interface 1116D is connected with the 9th path 10 09D, wherein this first pressure switch 43D is connected with the 16 interface 1116D and can be connected with being energized with this control module 42D of this control unit 40D, wherein this control module 42D is set up the pressure signal that can receive this first pressure switch 43D, and when the pressure that this first pressure switch 43D detects is lower than first preset value, stop the water treatment of this water treatment system.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 17 interface 1117D and a tenth path 10 10D further, the control unit 40D of this water treatment system comprises a second pressure switch 44D further, wherein the tenth path 10 10D is connected with the 7th path 10 07D, 17 interface 1117D is connected with the tenth path 10 10D, wherein this second pressure switch 44D is connected with the 17 interface 1117D and can be connected with being energized with this control module 42D of this control unit 40D, wherein this control module 42D is set up the pressure signal that can receive this second pressure switch 44D, and when the pressure that this second pressure switch 44D detects is higher than second preset value, this water treatment system is shut down and stops the process to water.Preferably, when the pressure that this second pressure switch 44D detects is lower than the 3rd preset value, the control unit 40D of this water treatment system will start this water treatment system and start water treatment.

Be understandable that, the tenth path 10 10D is directly or indirectly connected with the 7th interface 1107D, and after the process obtained to enable this second strainer 31D process, water is discharged by the tenth path 10 10D.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises the 18 interface 1118D and a 19 interface 1119D further, the control unit 40D of this water treatment system comprises a second control valve 45D further, wherein the 18 interface 1118D is connected with this Five-channel 1005D, 19 interface 1119D is connected with this Hexamermis spp 1006D, and wherein this second control valve 45D is connected with the 18 interface 1118D and the 19 interface 1119D respectively.Preferably, this second control valve 45D is a check valve, and this second control valve 45D allow current from Five-channel 1005D to the flowing of Hexamermis spp 1006D and stop current from Hexamermis spp 1006D to the flowing of Five-channel 1005D.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises the 20 interface 1120D and a 21 interface 1121D further, the control unit 40D of this water treatment system comprises a 3rd control valve 46D further, wherein the 20 interface 1120D is connected with the 7th path 10 07D respectively with the 21 interface 1121D, and the 3rd control valve 46D is connected with the 20 interface 1120D and the 21 interface 1121D respectively.In other words, the 3rd control valve 46D is arranged on the 7th path 10 07D to control the flowing of water in the 7th path 10 07D.Preferably, 3rd control valve 46D is a check valve, and the 3rd control valve 46D allow current from the 20 interface 1120D to the flowing in the 21 interface 1121D direction and stop current from the 21 interface 1121D to the flowing in the 20 interface 1120D direction.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a water-in 101D, a first water outlet 102D and second water outlet 103D further, wherein this water-in 101D is connected with this first interface 1101D, this first water outlet 102D is connected with the 9th interface 1109D, and this second water outlet 103D is connected with the 7th interface 1107D.In other words, when this water treatment system is in normal water treated state, pending water enters this water treatment system by this water-in 101D, and pass through the process of this first unit for treating water 20D and this second unit for treating water 30D successively, obtain processed rear water, as pure water, and waste water, after the process wherein obtained, water flows to this second water outlet 103D through the 7th interface 1107D, and this waste water (being actually remaining water to be discharged after the second unit for treating water 30D process) flows to this first water outlet 102D through this third channel 1003D and discharges.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 3rd water outlet 104D further, wherein the 3rd water outlet 104D is connected with the tenth path 10 10D, and the 17 interface 1117D is located between the 7th interface 1107D and the 3rd water outlet 104D.

As shown in Figure 20 and Figure 21 of accompanying drawing, the water treatment system according to the utility model the 4th preferred embodiment comprises a tank 50D further, and wherein this tank 50D and the 3rd water outlet 104D is connected.Preferably, this tank 50D is a pressurized vessel, and the water capacity in this pressurized vessel is when reaching some amount, pressure in it can rise and be detected by this second pressure switch 44D, if when the pressure that this second pressure switch 44D detects is higher than second preset value, the control unit 40D of this water treatment system will stop the water treatment of this water treatment system.More preferably, when the pressure that this second pressure switch 44D detects is lower than the 3rd preset value, the control unit 40D of this water treatment system will start this water treatment system and start water treatment.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises the 4th water outlet 105D and a 11 path 10 11D further, wherein the 11 path 10 11D is connected with the 4th water outlet 105D with this first channel 1001D respectively, thus the water flowing through this first channel 1001D can be flowed out from the 4th water outlet 105D.In other words, pending water after the first strainer 21D process of the first processing unit 20D, can flow out through this first channel 1001D, the 11 path 10 11D and the 4th water outlet 105D and is directly used.Therefore, this water treatment system can provide two kinds to purify waste water, the first class purification water that to be pending water obtain through the first strainer 21D process of the first unit for treating water 20D, and this first class purification water processes through this second unit for treating water 30D the secondary purification water obtained further.If this second unit for treating water 30D utilizes RO film to carry out reprocessing to first class purification water, be then just commonly referred to as the secondary purification water of pure water or pure water.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 22 interface 1122D further, a 23 interface 1123D, a 24 interface 1124D, a 25 interface 1125D, a 12 passage 1012D, a tenth triple channel 1013D, wherein the 12 passage 1012D is connected with the 22 interface 1122D with this first interface 1101D respectively, tenth triple channel 1013D is connected with the 25 interface 1125D with this second interface 1102D respectively, 24 interface 1124D is connected with the 8th path 10 08D.

As shown in Figure 20 and Figure 21 of accompanying drawing, this first unit for treating water 20D according to the water treatment system of the utility model the 4th preferred embodiment comprises two the first strainer 21D, one of them first strainer 21D is connected with the 22 interface 1122D and the 23 interface 1123D respectively, and another first strainer 21D is connected with the 24 interface 1124D and the 25 interface 1125D respectively.

Alternatively, this water route integrated ontology 10D of this water treatment system comprises a 22 interface 1122D further, a 23 interface 1123D, a 24 interface 1124D, a 25 interface 1125D, a 12 passage 1012D, a tenth triple channel 1013D, wherein the 12 passage 1012D is connected with the 22 interface 1122D with this first interface 1101D respectively, tenth triple channel 1013D is connected with the 24 interface 1124D with the 23 interface 1123D respectively, 25 interface 1125D is connected with the 9th path 10 09D, 8th path 10 08D is connected with this second interface 1102D.Therefore, when this first unit for treating water 20D comprises two the first strainer 21D, one of them first strainer 21D can be connected with the 22 interface 1122D and the 23 interface 1123D respectively, and another first strainer 21D is connected with the 24 interface 1124D and the 25 interface 1125D respectively.

Alternatively, this water route integrated ontology 10D of this water treatment system comprises a 22 interface 1122D further, a 23 interface 1123D, a 24 interface 1124D, a 25 interface 1125D, a 12 passage 1012D, a tenth triple channel 1013D, wherein the 12 passage 1012D is connected with the 22 interface 1122D with this first interface 1101D respectively, tenth triple channel 1013D is connected with the 25 interface 1125D with the 24 interface 1124D respectively, wherein the 9th path 10 09D is connected with the 22 interface 1022D, 8th path 10 08D is connected with the 23 interface 1123D.

As shown in Figure 20 and Figure 21 of accompanying drawing, water route integrated ontology 10D according to this Water route integrated device of the utility model the 4th preferred embodiment comprises a 26 interface 1126D, the 27 interface 1127D and a tenth four-way 1014D further, wherein the tenth four-way 1014D is connected with the 26 interface 1126D with the 9th interface 1109D respectively, and the 27 interface 1127D is connected with this first water outlet 102D.

As shown in Figure 20 and Figure 21 of accompanying drawing, this second unit for treating water 30D according to the water treatment system of the utility model the 4th preferred embodiment comprises a second amount controller 35D further, and wherein this second amount controller 35D is connected with the 26 interface 1126D and the 27 interface 1127D respectively.It should be noted that this first interface 1101D of the water route integrated ontology 10D of this Water route integrated device, this second interface 1102D, 3rd interface 1103D, 4th interface 1104D, 5th interface 1105D, 6th interface 1106D, 7th interface 1107D, 8th interface 1108D, 9th interface 1109D, tenth interface 1110D, 11 interface 1111D, 12 interface 1112D, 13 interface 1113D, 14 interface 1114D, 15 interface 1115D, 16 interface 1116D, 17 interface 1117D, 18 interface 1118D, 19 interface 1119D, 20 interface 1120D, 21 interface 1121D, 22 interface 1122D, 22 interface 1122D, 23 interface 1123D, 24 interface 1124D, 25 interface 1125D, 26 interface 1126D and the 27 interface 1127D can be separately positioned on same first side 11D, also can be separately positioned on two different the first side 11D.

As shown in Figure 23 of accompanying drawing, this control module 42D according to this control unit 40D of the water treatment system of the utility model the 4th preferred embodiment can be connected with this conducting valve 33D with this hydraulic pressure producer 22D respectively with being energized, and wherein this control module 42D can be set up the startup that can control this hydraulic pressure producer 22D and this conducting valve 33D and close down.Preferably; this control module 42D of this control unit 40D can be connected with this first pressure switch 43D with this first control valve 41D respectively with being energized; wherein this control module 42D be set up can receive shut down pressure signal from one of this first pressure switch 43D time, this control module 42D sends a stop instruction to this hydraulic pressure producer 22D and controls the water treatment that this water treatment system stops pending water.This control module 42D of this control unit 40D also can send an out code to this first control valve 41D, enters a closure state to control this first control valve 41D.More preferably, this control module 42D of this control unit 40D can be connected with this second pressure switch 44D with being energized, wherein this control module 42D be set up can receive shut down pressure signal from one of this second pressure switch 44D time, this control module 42D sends a stop instruction to this hydraulic pressure producer 22D and controls the water treatment that this water treatment system stops pending water; When receiving a start pressure signal from this second pressure switch 44D, this control module 42D sends a start-up command to this hydraulic pressure producer 22D and controls the water treatment of this water treatment system startup to pending water.

As shown in Figure 22 of accompanying drawing, the utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) first plate body and second plate body is manufactured, wherein this first plate body has a forming surface, wherein this first plate body has a first channel, a second passage and a third channel, wherein this first channel, this second passage is spaced apart in this forming surface respectively with this third channel, wherein this second plate body has a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this second plate body respectively with the 9th interface, with

(B) this second plate body is arranged on the forming surface of this first plate body, wherein this second interface is connected with this first channel respectively with the 3rd interface; 4th interface is connected with this second passage respectively with the 5th interface, and the 6th interface is connected with this third channel respectively with the 8th interface.

Be understandable that, this first interface, this second interface, the 3rd interface, the 4th interface, the 5th interface, the 6th interface, the 7th interface, the 8th interface and the 9th interface also can be spaced apart at this first plate body and this second plate body respectively.

Further, this first strainer of this first unit for treating water of this water treatment system is connected with this first interface and this second interface respectively, this hydraulic pressure producer is connected with the 3rd interface and the 4th interface respectively, this second strainer is connected with the 5th interface, the 6th interface and the 7th interface respectively, and this first flow controller is connected with the 8th interface and the 9th interface respectively.

Preferably, this first plate body is one-body molded with this second plate body.

More preferably, this first plate body and this second plate body all form by injection moulding is molded.

Alternatively, this first plate body and this second plate body all form by blow moulding is molded.

Alternatively, together with this first plate body and this second plate body are molded over by Method for bonding.

The utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) first plate body and second plate body is manufactured, wherein this first plate body has a forming surface, wherein this first plate body has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage is spaced apart in this forming surface respectively with this third channel, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this first plate body respectively with the 9th interface, with

(B) this second plate body is arranged on the forming surface of this first plate body, wherein this second interface is connected with this first channel respectively with the 3rd interface; 4th interface is connected with this second passage respectively with the 5th interface, and the 6th interface is connected with this third channel respectively with the 8th interface.

Be understandable that, this first interface, this second interface, the 3rd interface, the 4th interface, the 5th interface, the 6th interface, the 7th interface, the 8th interface and the 9th interface also can be spaced apart at this first plate body and this second plate body respectively.

Further, this first strainer of this first unit for treating water of this water treatment system is connected with this first interface and this second interface respectively, this hydraulic pressure producer is connected with the 3rd interface and the 4th interface respectively, this second strainer is connected with the 5th interface, the 6th interface and the 7th interface respectively, and this first flow controller is connected with the 8th interface and the 9th interface respectively.

Preferably, this first plate body is one-body molded with this second plate body.

More preferably, this first plate body and this second plate body all form by injection moulding is molded.

Alternatively, this first plate body and this second plate body all form by blow moulding is molded.

Alternatively, together with this first plate body and this second plate body are molded over by Method for bonding.

As shown in Figure 24 of accompanying drawing, the utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) first plate body and second plate body is manufactured, wherein this first plate body has a forming surface, wherein this first plate body has a first channel, a second passage and a third channel, wherein this first channel, this second passage is spaced apart in this forming surface respectively with this third channel, wherein this second plate body has a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this second plate body respectively with the 9th interface, with

(B) this second plate body is arranged on this forming surface of this first plate body, wherein this second interface is connected with this first channel respectively with the 3rd interface; 4th interface is connected with this second passage respectively with the 5th interface, and the 6th interface is connected with this third channel respectively with the 8th interface.

Be understandable that, this first interface, this second interface, the 3rd interface, the 4th interface, the 5th interface, the 6th interface, the 7th interface, the 8th interface and the 9th interface also can be spaced apart at this first plate body and this second plate body respectively.

Further, this first strainer of this first unit for treating water of this water treatment system is connected with this first interface and this second interface respectively, this hydraulic pressure producer is connected with the 3rd interface and the 4th interface respectively, this second strainer is connected with the 5th interface, the 6th interface and the 7th interface respectively, and this first flow controller is connected with the 8th interface and the 9th interface respectively.

Preferably, this first plate body is one-body molded with this second plate body.

More preferably, this first plate body and this second plate body all form by injection moulding is molded.

Alternatively, this first plate body and this second plate body all form by blow moulding is molded.

Alternatively, together with this first plate body and this second plate body are molded over by Method for bonding.

As shown in Figure 25 of accompanying drawing, the utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) first plate body and second plate body is manufactured, wherein this first plate body has a forming surface, wherein this first plate body has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage is spaced apart in this forming surface respectively with this third channel, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this first plate body respectively with the 9th interface, with

(B) this second plate body is arranged on this forming surface of this first plate body, wherein this second interface is connected with this first channel respectively with the 3rd interface; 4th interface is connected with this second passage respectively with the 5th interface, and the 6th interface is connected with this third channel respectively with the 8th interface.

Be understandable that, this first interface, this second interface, the 3rd interface, the 4th interface, the 5th interface, the 6th interface, the 7th interface, the 8th interface and the 9th interface also can be spaced apart at this first plate body and/or this second plate body respectively.In like manner, this first channel, this second passage and this third channel also can be separately positioned on a forming surface of this first plate body and/or the second plate body.In other words, this first channel, in this second passage and this third channel at least one of them is arranged on the forming surface of this first plate body, this first channel, in this second passage and this third channel at least one of them is arranged on the forming surface of this second plate body, this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, in 8th interface and the 9th interface at least one of them is arranged on this first plate body, this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, in 8th interface and the 9th interface at least one of them is arranged on this second plate body.Preferably, the forming surface of this first plate body is coupled in the forming surface of this second plate body.

Further, this first strainer of this first unit for treating water of this water treatment system is connected with this first interface and this second interface respectively, this hydraulic pressure producer is connected with the 3rd interface and the 4th interface respectively, this second strainer is connected with the 5th interface, the 6th interface and the 7th interface respectively, and this first flow controller is connected with the 8th interface and the 9th interface respectively.

Preferably, this first plate body is one-body molded with this second plate body.

More preferably, this first plate body and this second plate body all form by injection moulding is molded.

Alternatively, this first plate body and this second plate body all form by blow moulding is molded.

Alternatively, together with this first plate body and this second plate body are molded over by Method for bonding.

As shown in Figure 26 of accompanying drawing, the utility model provides a kind of method for the manufacture of Water route integrated device further, and it comprises the following steps:

(A) prepare manufactured materials, and material is joined 3D printer; With

(B) in 3D printer, print command is inputted, to enable this 3D printer print this Water route integrated device according to the design variable of this Water route integrated device, or activate this 3D printer and print this Water route integrated device to enable this 3D printer according to the instruction be stored in advance in this 3D printer.

Preferably, the material manufacturing this Water route integrated device 1 is any food grade materials that can be used in manufacturing this Water route integrated device well known to those skilled in the art.Be understandable that, " being connected " herein refers to two structural elements (or parts) and is connected together, and both are connected, another structural element is flowed to from one of them structural element to make suitable water flow energy, such as this first strainer 21 is connected with this first interface 1101 and this second interface 1102 respectively, then current can flow to this first strainer 21 from this first interface 1101, and current can flow to this second interface 1102 from this first strainer 21.In addition, herein first, second, 3rd, 4th, 5th, 6th, 7th, 8th, 9th, tenth, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26 and the 27 etc. when for describing the utility model, only play each element name of the present utility model and the effect making to produce between each element of the present utility model and/or structure differentiation, unless otherwise indicated, otherwise itself not there is order or the how many implication of number.

Those skilled in the art can understand shown in accompanying drawing to be only to example of the present utility model instead of restriction with the utility model embodiment described above.

Can see that the utility model object can fully effectively be completed thus.For explaining that this embodiment of the utility model function and structure principle has been absolutely proved and described, and the utility model is not by the restriction based on the change on these embodiment basis.Therefore, the utility model comprises all modifications be encompassed within appended claims book claimed range and spirit.

Claims (32)

1. for a Water route integrated device for water treatment system, it is characterized in that, comprising:

A water route integrated ontology, wherein this water route integrated ontology has a first channel, a second passage, a third channel, a first interface, second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface and the 9th interface, wherein this first channel, this second passage is spaced apart in this water route integrated ontology respectively with this third channel, wherein this first interface, this second interface, 3rd interface, 4th interface, 5th interface, 6th interface, 7th interface, 8th interface is spaced apart at this water route integrated ontology respectively with the 9th interface, wherein this second interface is connected with this first channel respectively with the 3rd interface, 4th interface is connected with this second passage respectively with the 5th interface, 6th interface is connected with this third channel respectively with the 8th interface.

2. Water route integrated device according to claim 1, it is characterized in that, this water route integrated ontology has a four-way, the tenth interface and the 11 interface further, and wherein this four-way is set up and is connected with this third channel and the tenth interface respectively.

3. Water route integrated device according to claim 2, it is characterized in that, this water route integrated ontology has a Five-channel, Hexamermis spp, the 13 interface and the 12 interface further, wherein this Five-channel is connected with the 12 interface with this second interface respectively, and this Hexamermis spp is connected with the 13 interface.

4. Water route integrated device according to claim 2, it is characterized in that, this water route integrated ontology has the 7th passage, the 14 interface and the 15 interface further, and wherein the 7th passage is connected with the 14 interface with the 7th interface respectively.

5. Water route integrated device according to claim 3, it is characterized in that, this water route integrated ontology has the 7th passage, the 14 interface and the 15 interface further, and wherein the 7th passage is connected with the 14 interface with the 7th interface respectively.

6. Water route integrated device according to claim 4, it is characterized in that, this water route integrated ontology has the 16 interface and the 8th passage further, and wherein the 8th passage is connected with the 7th passage, and the 16 interface is connected with the 8th passage.

7. Water route integrated device according to claim 5, it is characterized in that, this water route integrated ontology has the 16 interface and the 8th passage further, and wherein the 8th passage is connected with the 7th passage, and the 16 interface is connected with the 8th passage.

8. Water route integrated device according to claim 5, is characterized in that, this water route integrated ontology has the 17 interface further, and wherein the 17 interface is connected with this Hexamermis spp.

9. Water route integrated device according to claim 7, is characterized in that, this water route integrated ontology has the 17 interface further, and wherein the 17 interface is connected with this Hexamermis spp.

10. Water route integrated device according to claim 4, it is characterized in that, this water route integrated ontology has the 18 interface and the 19 interface further, and wherein the 18 interface is connected with the 7th interface, and the 19 interface is connected with the 7th passage.

11. Water route integrated devices according to claim 9, it is characterized in that, this water route integrated ontology has the 18 interface and the 19 interface further, and wherein the 18 interface is connected with the 7th interface, and the 19 interface is connected with the 7th passage.

12. Water route integrated devices according to claim 3, it is characterized in that, this water route integrated ontology has the 9th passage, the tenth passage, the 20 interface and the 21 interface further, wherein the 9th passage is connected with the 20 interface with the 9th interface respectively, and the tenth passage is connected with the 21 interface with the 3rd interface respectively.

13. Water route integrated devices according to claim 11, it is characterized in that, this water route integrated ontology has the 9th passage, the tenth passage, the 20 interface and the 21 interface further, wherein the 9th passage is connected with the 20 interface with the 9th interface respectively, and the tenth passage is connected with the 21 interface with the 3rd interface respectively.

14. Water route integrated devices according to claim 1, it is characterized in that, this water route integrated ontology has a water-in, first water outlet and second water outlet further, wherein this water-in is connected with this first interface, this first water outlet is connected with the 9th interface, and this second water outlet is connected with the 7th interface.

15. Water route integrated devices according to claim 13, it is characterized in that, this water route integrated ontology has a water-in, first water outlet and second water outlet further, wherein this water-in is connected with this first interface, this first water outlet is connected with the 9th interface, and this second water outlet is connected with the 7th interface.

16. Water route integrated devices according to claim 6, is characterized in that, this water route integrated ontology has the 3rd water outlet further, and wherein the 3rd water outlet is connected with the 8th passage.

17. Water route integrated devices according to claim 15, is characterized in that, this water route integrated ontology has the 3rd water outlet further, and wherein the 3rd water outlet is connected with the 8th passage.

18. Water route integrated devices according to claim 1, is characterized in that, this water route integrated ontology has the 4th water outlet and the 11 passage further, and wherein the 11 passage is connected with the 4th water outlet with this first channel respectively.

19. Water route integrated devices according to claim 17, is characterized in that, this water route integrated ontology has the 4th water outlet and the 11 passage further, and wherein the 11 passage is connected with the 4th water outlet with this first channel respectively.

20. Water route integrated devices according to the arbitrary claim of claim 3 to 19, it is characterized in that, this water route integrated ontology has the 22 interface, the 23 interface and the 12 passage further, and wherein the 12 passage is connected with the 22 interface with the 9th interface respectively.

21. according to claim 3, 5, 7, 9, 11, 12, 13, 15, Water route integrated device described in 17 or 19, it is characterized in that, this water route integrated ontology has the 24 interface further, 25 interface, 26 interface, 27 interface, tenth triple channel, tenth four-way, wherein the tenth triple channel is connected with the 24 interface with this first interface respectively, tenth four-way is connected with the 26 interface with the 25 interface respectively, 27 interface is connected with this Hexamermis spp, this Five-channel is connected with this second interface.

22. according to claim 3, 5, 7, 9, 11, 12, 13, 15, Water route integrated device described in 17 or 19, it is characterized in that, this water route integrated ontology has the 24 interface further, 25 interface, 26 interface, 27 interface, tenth triple channel, tenth four-way, wherein the tenth triple channel is connected with the 24 interface with this first interface respectively, tenth four-way is connected with the 27 interface with the 26 interface respectively, wherein this Hexamermis spp is connected with the 24 interface, this Five-channel is connected with the 25 interface.

23. according to claim 3, 5, 7, 9, 11, 12, 13, 15, Water route integrated device described in 17 or 19, it is characterized in that, this water route integrated ontology has the 24 interface further, 25 interface, 26 interface, 27 interface, tenth triple channel, tenth four-way, wherein the tenth triple channel is connected with the 24 interface with this first interface respectively, tenth four-way is connected with the 27 interface with this second interface respectively, 26 interface is connected with this Five-channel, 25 interface is connected with this Hexamermis spp.

24. Water route integrated devices according to claim 2, it is characterized in that, this water route integrated ontology has a Five-channel, Hexamermis spp, the 12 interface and the 13 interface further, wherein this Five-channel is connected with the 12 interface, and this Hexamermis spp is connected with the 13 interface with this first interface respectively.

25. Water route integrated devices according to claim 24, it is characterized in that, this water route integrated ontology has the 7th passage, the 14 interface and the 15 interface further, and wherein the 7th passage is connected with the 14 interface with the 7th interface respectively.

26. Water route integrated devices according to claim 25, it is characterized in that, this water route integrated ontology has the 16 interface and the 8th passage further, and wherein the 8th passage is connected with the 7th passage, and the 16 interface is connected with the 8th passage.

27. Water route integrated devices according to claim 26, is characterized in that, this water route integrated ontology has the 17 interface further, and wherein the 17 interface is connected with this Hexamermis spp, and wherein the 17 interface is connected with this Hexamermis spp.

28. Water route integrated devices according to claim 27, it is characterized in that, this water route integrated ontology has the 18 interface and the 19 interface further, and wherein the 18 interface is connected with the 7th interface, and the 19 interface is connected with the 7th passage.

29. Water route integrated devices according to claim 28, it is characterized in that, this water route integrated ontology has the 9th passage, the tenth passage, the 20 interface and the 21 interface further, wherein the 9th passage is connected with the 20 interface with the 9th interface respectively, and the tenth passage is connected with the 21 interface with the 3rd interface respectively.

30. Water route integrated devices according to claim 29, it is characterized in that, this water route integrated ontology has a water-in, first water outlet and second water outlet further, wherein this water-in is connected with this first interface, this first water outlet is connected with the 9th interface, and this second water outlet is connected with the 7th interface.

31. Water route integrated devices according to claim 30, is characterized in that, this water route integrated ontology has the 3rd water outlet further, and wherein the 3rd water outlet is connected with the 8th passage.

32. Water route integrated devices according to claim 31, is characterized in that, this water route integrated ontology has the 4th water outlet and the 11 passage further, and wherein the 11 passage is connected with the 4th water outlet with this first channel respectively.