CN212315794U - All-in-one tee joint switching waterway - Google Patents

Abstract

The utility model provides an all-in-one tee bend switches water route, is provided with E membrane heap filtration module, pure water three-way valve, waste water three-way valve and valve control device, and E membrane heap filtration module's pure product mouth of a river and the first pure water valve port intercommunication of pure water three-way valve, E membrane heap filtration module's waste water outlet and the first waste water valve port intercommunication of waste water three-way valve, valve control device are connected with pure water three-way valve, waste water three-way valve electricity respectively. The membrane stack electrode control device is respectively and electrically connected with the membrane stack filtering module and the valve control device. This all-in-one tee bend switches water route can wash the EDR membrane stack in to the EDR purifier according to the use operating mode of E membrane stack and makes the EDR membrane stack can last effectual operation, reduces the loss of EDR membrane stack when using, and the increase of utilization ratio reduces user's use cost.

Description

All-in-one tee joint switching waterway

Technical Field

The utility model relates to a house water purifier technical field especially relates to an all-in-one tee bend switches water route.

Background

With the increasingly strong concept of water quality health of people, water purifiers have become common household electrical appliances for every family. The water purifier commonly used at present filters particulate matters in raw water to realize a water purifying effect. However, the existing water purifier can also produce a large amount of waste water when purifying water, and the waste of water resources is serious.

When the EDR water purifier is used, the EDR membrane is easy to scale and calcify in the EDR membrane stack due to the generation of a large amount of waste water and the use of the EDR water purifier, so that the use cost is high, and the filtering effect of the EDR membrane in the subsequent use process can be influenced.

Therefore, aiming at the defects of the prior art, it is necessary to provide a three-way switching water path of the all-in-one machine to overcome the defects of the prior art.

Disclosure of Invention

An object of the utility model is to avoid prior art's weak point and provide an all-in-one tee bend switches water route, and this all-in-one tee bend switches the water route and can washes the EDR membrane stack according to the use operating mode of E membrane stack, ensures that the EDR membrane stack can last effective operation, reduces the loss of EDR membrane stack when using, and the high-usage.

The above object of the present invention is achieved by the following technical means.

Providing an all-in-one three-way switching waterway, which is provided with an E membrane stack filtering module, a pure water three-way valve, a wastewater three-way valve and a valve control device, wherein a pure water outlet of the E membrane stack filtering module is communicated with a first pure water valve port of the pure water three-way valve, a wastewater outlet of the E membrane stack filtering module is communicated with a first wastewater valve port of the wastewater three-way valve, and a third pure water valve port of the pure water three-way valve is communicated with a second wastewater valve port of the wastewater three-way valve;

the valve control device is electrically connected with the pure water three-way valve and the waste water three-way valve respectively. An E film stack electrode control device is also arranged; the E membrane stack electrode control device is electrically connected with the E membrane stack filtering module and the valve control device respectively.

Preferably, the device is further provided with a water flow detection control device, a detection end of the water flow detection control device is arranged at least one of a pure water outlet of the E-membrane stack filtering module, a waste water outlet of the E-membrane stack filtering module, a second pure water valve port of the pure water three-way valve and a third waste water valve port of the waste water three-way valve, and the water flow detection control device is electrically connected with the E-membrane stack electrode control device.

Preferably, a raw water tank is further provided, a water inlet of the raw water tank is respectively communicated with the third pure water valve port of the pure water three-way valve and the second wastewater valve port of the wastewater three-way valve, and a water outlet of the raw water tank is communicated with a water inlet of the E-membrane stack filtration module.

Preferably, the E membrane stack electrode control device is provided with a voltage control assembly and an electrode control assembly; the voltage control assembly and the electrode control assembly are respectively and electrically connected with the E membrane stack filtering module.

Preferably, a water quality monitoring device is further arranged, and a detection end of the water quality monitoring device is arranged at least one of a pure water production port of the E-membrane stack filtering module, a waste water outlet of the E-membrane stack filtering module, a second pure water valve port of the pure water three-way valve or a third waste water valve port of the waste water three-way valve.

Preferably, a front filter element for filtering the inlet water of the E-membrane stack filter module is further arranged, and a filtered water outlet of the front filter element is communicated with a water inlet of the E-membrane stack filter module.

Preferably, a water quality display device is further arranged and connected with the water quality monitoring device.

Preferably, the pre-filter element is at least one of an activated carbon filter element, a nano filter element or a pp filter element.

Preferably, the water quality monitoring device is set as any one of MC410TDS, DR-TDS-3 or TDS 2285;

preferably, the valve control device is provided as any one of a solenoid valve controller DKX-C-10, DKX-C-20, DKX-G-10 or DKX-G-20.

The utility model discloses an all-in-one tee bend switches the water route, is provided with E membrane heap filtration module, pure water three-way valve, waste water three-way valve and valve control device, and E membrane heap filtration module's pure product mouth of a river and the first pure water valve port intercommunication of pure water three-way valve, E membrane heap filtration module's waste outlet and waste water three-way valve's first waste water valve port intercommunication, valve control device are connected with pure water three-way valve, waste water three-way valve electricity respectively. The membrane stack electrode control device is respectively and electrically connected with the membrane stack filtering module and the valve control device. When water is produced, when filtered pure water flows out through the E-membrane stack filtering module, the valve control device controls a first pure water valve port and a second pure water valve port in the pure water three-way valve to be opened, a third pure water valve port in the pure water three-way valve to be closed, the valve control device simultaneously controls a first wastewater valve port and a second wastewater valve port of the wastewater three-way valve to be opened, and a third wastewater valve port of the wastewater three-way valve to be closed, so that wastewater of the E-membrane stack filtering module is discharged through the first wastewater valve port and the second wastewater valve port of the wastewater three-way valve; when the E-membrane stack filtering module needs to be cleaned, the E-membrane stack electrode control device controls the first wastewater valve port and the second wastewater valve port of the wastewater three-way valve to be opened simultaneously through the valve control device in the cleaning stage by changing the positive and negative electrodes of the applied voltage of the E-membrane stack filtering module, the first pure water valve port and the third pure water valve port in the pure water three-way valve are opened, the E-membrane stack filtering module is cleaned by pure water filtered by the E-membrane stack filtering module, and the phenomenon of scaling or fouling in the subsequent use is prevented. Meanwhile, when the E-membrane stack electrode control device needs to carry out reverse electrode water production by changing the positive and negative electrodes of the applied voltage of the E-membrane stack filtering module, the valve control device simultaneously controls the first wastewater valve port and the third wastewater valve port of the wastewater three-way valve to be opened, the first pure water valve port and the third pure water valve port in the pure water three-way valve are opened, pure water prepared by the E-membrane stack filtering module flows out from the first wastewater valve port and the third wastewater valve port of the wastewater three-way valve, and the first pure water valve port and the third pure water valve port in the wastewater pure water three-way valve prepared by the E-membrane stack filtering module flow out. This all-in-one tee bend switches water route can wash the EDR membrane stack in to the EDR purifier according to the use operating mode of E membrane stack and makes the EDR membrane stack can last effectual operation, reduces the loss of EDR membrane stack when using, and the increase of utilization ratio reduces user's use cost.

Drawings

The present invention will be further described with reference to the accompanying drawings, but the contents in the drawings do not constitute any limitation to the present invention.

Fig. 1 is a schematic view of a waterway structure in embodiment 1 of the present invention.

Fig. 2 is a schematic circuit diagram of embodiment 1 of the present invention.

Fig. 3 is a schematic view of a waterway structure in embodiment 2 of the present invention.

Fig. 4 is a schematic circuit diagram of embodiment 3 of the present invention.

In fig. 1 to 4, the following are included:

an E-film stack filter module 100, a pure water three-way valve 101, a first pure water valve port 1011, a second pure water valve port 1012, a third pure water valve port 1013, a,

A waste water three-way valve 102, a first waste water port 1021, a second waste water port 1022, and a third waste water port 1023;

the valve control device 200;

e membrane stack electrode control device 300, voltage control assembly 301, electrode control assembly 302;

a water flow rate detection control means 400;

a raw water tank 500;

water quality monitoring device 600, leading filter core 700, water quality display device 800.

Detailed Description

The invention will be further described with reference to the following examples.

Example 1.

An all-in-one three-way switching waterway is provided with an E-membrane stack filtering module 100, a pure water three-way valve 101, a wastewater three-way valve 102 and a valve control device 200, wherein a pure water outlet of the E-membrane stack filtering module 100 is communicated with a first pure water valve port 1011 of the pure water three-way valve 101, a wastewater outlet of the E-membrane stack filtering module 100 is communicated with a first wastewater valve port 1021 of the wastewater three-way valve 102, and a third pure water valve port 1013 of the pure water three-way valve 101 is communicated with a second wastewater valve port 1022 of the wastewater three-way valve 102, as shown in figures 1 and.

The valve control device 200 is electrically connected to the pure water three-way valve and the wastewater three-way valve 102, respectively. An E film stack electrode control device 300 is also arranged; the E-membrane stack electrode control device 300 is electrically connected with the E-membrane stack filtration module 100 and the valve control device 200, respectively.

Specifically, the E-film stack electrode control device 300 is provided with a voltage control assembly 301 and an electrode control assembly 302; the voltage control assembly 301 and the electrode control assembly 302 are respectively electrically connected with the E-membrane stack filtration module 100.

The electrode control component 302 is configured to control the applied electrode of the E-membrane stack filtration module 100, wherein the applied voltage of the positive electrode in the raw water of the E-membrane stack filtration module 100 is specifically adjusted to be the applied voltage of the negative electrode, and the applied voltage of the negative electrode in the raw water of the E-membrane stack filtration module 100 is adjusted to be the applied voltage of the positive electrode.

The E-membrane stack filtration module 100 operates by means of a reverse electrodialysis technique during the adjustment of the applied voltage electrodes, which is a common knowledge of those skilled in the art, and the specific structural principle features are not described in detail.

The purpose of the voltage control assembly 301 is to adjust the applied voltage of the E-membrane stack filtration module 100, and when in use, the applied voltage is adjusted to change the filtration degree of raw water in the E-membrane stack filtration module 100, so as to achieve the purpose of adjusting water quality. The voltage control component 301 is a common knowledge of those skilled in the art, and the detailed structural features will not be described.

Specifically, the valve control apparatus 200 is provided as any one of solenoid valve controllers DKX-C-10, DKX-C-20, DKX-G-10, or DKX-G-20. The valve control device 200 may be purchased in the market according to the purpose of use, as well as the common general knowledge of those skilled in the art and as electronic components commonly used in the industry in the field, and therefore, the detailed structural features will not be described again.

The utility model discloses an all-in-one tee bend switches the water route, is provided with E membrane heap filtration module, pure water three-way valve, waste water three-way valve and valve control device, and E membrane heap filtration module's pure product mouth of a river and the first pure water valve port intercommunication of pure water three-way valve, E membrane heap filtration module's waste outlet and waste water three-way valve's first waste water valve port intercommunication, valve control device are connected with pure water three-way valve, waste water three-way valve electricity respectively. The membrane stack electrode control device is respectively and electrically connected with the membrane stack filtering module and the valve control device.

When water is produced and pure water filtered by the E-membrane stack filtering module flows out, the valve control device controls the first pure water valve port and the second pure water valve port in the pure water three-way valve to be opened, the third pure water valve port in the pure water three-way valve to be closed, the valve control device simultaneously controls the first wastewater valve port and the second wastewater valve port of the wastewater three-way valve to be opened, and the third wastewater valve port of the wastewater three-way valve to be closed, so that wastewater of the E-membrane stack filtering module is discharged through the first wastewater valve port and the second wastewater valve port of the wastewater three-way valve.

When the E-membrane stack filtering module needs to be cleaned, the E-membrane stack electrode control device controls the first wastewater valve port and the second wastewater valve port of the wastewater three-way valve to be opened simultaneously through the valve control device in the cleaning stage by changing the positive and negative electrodes of the applied voltage of the E-membrane stack filtering module, the first pure water valve port and the third pure water valve port in the pure water three-way valve are opened, the E-membrane stack filtering module is cleaned by pure water filtered by the E-membrane stack filtering module, and the phenomenon of scaling or fouling in the subsequent use is prevented. Meanwhile, when the E-membrane stack electrode control device needs to carry out reverse electrode water production by changing the positive and negative electrodes of the applied voltage of the E-membrane stack filtering module, the valve control device simultaneously controls the first wastewater valve port and the third wastewater valve port of the wastewater three-way valve to be opened, the first pure water valve port and the third pure water valve port in the pure water three-way valve are opened, pure water prepared by the E-membrane stack filtering module flows out from the first wastewater valve port and the third wastewater valve port of the wastewater three-way valve, and waste water prepared by the E-membrane stack filtering module flows out from the first pure water valve port and the third pure water valve port in the pure water three-way valve. This all-in-one tee bend switches water route can wash the EDR membrane stack in to the EDR purifier according to the use operating mode of E membrane stack and makes the EDR membrane stack can last effectual operation, reduces the loss of EDR membrane stack when using, and the increase of utilization ratio reduces user's use cost.

Example 2.

The all-in-one three-way switching waterway has the same structure as that of embodiment 1, except that, as shown in fig. 3, a raw water tank 500 is further provided, a water inlet of the raw water tank 500 is respectively communicated with a third pure water port 1013 of the pure water three-way valve 101 and a second wastewater port 1022 of the wastewater three-way valve 102, and a water outlet of the raw water tank 500 is communicated with a water inlet of the E-membrane stack filter module 100. When using, can retrieve the effect that reaches the water economy volume to the water after E membrane stack filtration module 100 filters through setting up former water tank 500 to former water tank 500 can unify through the intercommunication running water and concentrate with E membrane stack filtration module 100's waste water, filters once more through E membrane stack filtration module 100 afterwards.

The raw water tank 500 is used to supply the E-membrane stack filtration module 100 with inlet water and collect the discharged wastewater of the re-use E-membrane stack filtration module 100.

The water filter is also provided with a front filter element 700 for filtering the inlet water of the E membrane stack filtering module 100, and the filtered water outlet of the front filter element 700 is communicated with the water inlet of the E membrane stack filtering module 100.

The pre-filter 700 is configured as at least one of an activated carbon filter cartridge, a nano filter cartridge, or a pp filter cartridge.

Can avoid the great granule in the quality of water to E membrane stack filter module's harm through setting up leading filter core, improve life, can make discharged waste water can cyclic utilization through setting up former water tank, improve the utilization ratio of water, reach the using water wisely.

Example 3.

The other structure of the all-in-one three-way switching waterway is the same as that in embodiment 1 or 2, except that as shown in fig. 4, a water flow detection control device 400 is further provided, a detection end of the water flow detection control device 400 is provided at least one of a pure water outlet of the E-membrane stack filtration module 100, a waste water outlet of the E-membrane stack filtration module 100, a second pure water valve port 1012 of the pure water three-way valve 101 and a third waste water valve port 1023 of the waste water three-way valve 102, and the water flow detection control device 400 is electrically connected with the E-membrane stack electrode control device 300. In this embodiment, the detection ends of the water flow detection control device 400 are disposed at the second pure water port 1012 of the pure water three-way valve 101 and the third waste water port 1023 of the waste water three-way valve 102.

Because the water volume that the user probably drunk at most 3-5 litres in every use, can accumulate the incrustation scale of certain degree in the use of E membrane heap filtration module 100 simultaneously, has set for the highest drinking water volume through water flow detection controlling means 400, after detecting the water yield of pure water and reaching the highest drinking water volume, E membrane heap electrode controlling means 300 washs E membrane heap filtration module 100 through the positive negative pole of regulation electrode.

The water quality monitoring device 600 is further arranged, and a detection end of the water quality monitoring device 600 is arranged at least one of a pure water production port of the E-membrane stack filtering module 100, a waste water discharge port of the E-membrane stack filtering module 100, a second pure water valve port 1012 of the pure water three-way valve 101 or a third waste water valve port 1023 of the waste water three-way valve 102.

A water quality display device 800 is also arranged, and the water quality display device 800 is connected with the water quality monitoring device.

The water quality monitoring device 600 is set to any one of MC410TDS, DR-TDS-3 or TDS 2285. The water quality display device 800 may be configured as an LED display device, a mobile phone display device, or an interconnected appliance display device, and as common general knowledge of those skilled in the art, specific structural features will not be described again.

Through setting up water quality monitoring device and quality of water display device can make the user in time know the quality of water situation to adjust the operating mode in whole water route in real time through the quality of water device.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. The utility model provides an all-in-one tee bend switches water route which characterized in that: the device is provided with an E-membrane stack filtering module, a pure water three-way valve, a wastewater three-way valve and a valve control device, wherein a pure water outlet of the E-membrane stack filtering module is communicated with a first pure water valve port of the pure water three-way valve, a wastewater outlet of the E-membrane stack filtering module is communicated with a first wastewater valve port of the wastewater three-way valve, and a third pure water valve port of the pure water three-way valve is communicated with a second wastewater valve port of the wastewater three-way valve;

the valve control device is electrically connected with the pure water three-way valve and the wastewater three-way valve respectively;

an E film stack electrode control device is also arranged; the E membrane stack electrode control device is electrically connected with the E membrane stack filtering module and the valve control device respectively.

2. The all-in-one tee switching waterway of claim 1, wherein:

the water flow detection and control device is also arranged, the detection end of the water flow detection and control device is arranged at least one of a pure water outlet of the E-membrane stack filtering module, a waste water outlet of the E-membrane stack filtering module, a second pure water valve port of the pure water three-way valve and a third waste water valve port of the waste water three-way valve, and the water flow detection and control device is electrically connected with the E-membrane stack electrode control device.

3. The all-in-one tee switching waterway of claim 2, wherein:

the membrane bioreactor is also provided with a raw water tank, a water inlet of the raw water tank is respectively communicated with a third pure water valve port of the pure water three-way valve and a second wastewater valve port of the wastewater three-way valve, and a water outlet of the raw water tank is communicated with a water inlet of the E-shaped membrane stack filtering module.

4. The all-in-one tee switching waterway of claim 3, wherein: the E membrane stack electrode control device is provided with a voltage control assembly and an electrode control assembly; and the voltage control assembly and the electrode control assembly are respectively and electrically connected with the E membrane stack filtering module.

5. The all-in-one tee switching waterway of claim 4, wherein: the water quality monitoring device is also arranged, and the detection end of the water quality monitoring device is arranged at least one of the pure water outlet of the E-membrane stack filtering module, the waste water outlet of the E-membrane stack filtering module, the second pure water valve port of the pure water three-way valve or the third waste water valve port of the waste water three-way valve.

6. The all-in-one tee switching waterway of claim 5, wherein: the water filter is characterized by also comprising a front filter element for filtering the inlet water of the E membrane stack filtering module, wherein the filtered water outlet of the front filter element is communicated with the water inlet of the E membrane stack filtering module.

7. The all-in-one tee switching waterway of claim 6, wherein: and the water quality display device is also arranged and is connected with the water quality monitoring device.

8. The all-in-one tee switching waterway of claim 7, wherein: the front filter element is at least one of an active carbon filter element, a nano filter element or a pp filter element.

9. The all-in-one tee switching waterway of claim 8, wherein:

the water quality monitoring device is set to be any one of MC410TDS, DR-TDS-3 or TDS 2285.

10. The all-in-one tee switching waterway of claim 9, wherein: the valve control device is set as any one of an electromagnetic valve controller DKX-C-10, DKX-C-20, DKX-G-10 or DKX-G-20.

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