CN211734016U - Waterway system and water purifier comprising same - Google Patents

Abstract

The utility model discloses a waterway system and contain its water purifier, waterway system includes filtering membrane subassembly, water inlet water route and pure water route, filtering membrane subassembly is located on the pure water route, the input in pure water route with the output in water inlet water route links to each other, waterway system still includes booster pump and at least one water purification water route, the input in water purification water route with the output in water inlet water route links to each other, the booster pump is located on the pure water route, the water purifier includes as above waterway system. The utility model discloses an increase at least one water purification water route and booster pump, satisfy existing big flux simultaneously and go out the water purification, have the demand that little flux goes out the pure water again, increase the water purification water route that does not pass through filtration membrane module after, effectively reduced the waste of water resource, reduced the work load of filtration membrane module, prolonged the life of filtration membrane module, realize the washing water that super large flux purifies.

Description

Waterway system and water purifier comprising same

Technical Field

The utility model relates to a waterway system and contain its water purifier.

Background

The existing water purifier only has the pure water function of single effluent, namely all effluent is pure water treated by a filtering membrane component, even when water is used in the living needs of washing and the like. However, when the water-saving filter is used in practice, for example, washing usually requires a large amount of water, a large amount of waste water is discharged during filtering due to single effluent, so that water resource waste is caused, the increase of the work load of the filtering membrane module seriously consumes the service life of the filtering membrane module, and the conditions of large demand of washing water flow and the like cannot be met well.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that all play water of water purifier all is the pure water after handling via the filtering membrane subassembly among the overcoming prior art, when domestic water such as washing, a large amount of waste water discharge and the water waste that causes when the filtration that single play water leads to and filtering membrane subassembly work load increase, life is consumed by seriously, and the defect that water flow demand can not fine satisfy provides a water route system and contains its water purifier.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

the utility model provides a waterway system, its includes filtering membrane subassembly, water inlet waterway and pure water waterway, filtering membrane subassembly is located on the pure water waterway, the input in pure water waterway with the output in water inlet waterway links to each other, its characterized in that, waterway system still includes booster pump and at least one water purification waterway, the input in water purification waterway with the output in water inlet waterway links to each other, the booster pump is located on the pure water waterway.

In this scheme, adopt above-mentioned structural style, through increasing at least one water purification water route, with the pure water if drinking water and domestic water discharge from pure water route and water purification water route respectively like kitchen water, utilize the booster pump to adjust pure water route flow, optimized water route system, reduced the waste of water resource.

Preferably, the waterway system further comprises a first pressure detection device and a water inlet solenoid valve, the first pressure detection device is electrically connected to the water inlet solenoid valve, and the first pressure detection device and the water inlet solenoid valve are both located on the pure water waterway and are both located at the upstream of the booster pump and the filtering membrane assembly.

In this scheme, adopt above-mentioned structural style, first pressure measurement can include pressure control switch, and pressure control switch is used for judging the water source pressure who gets into the pure water route, and when water pressure was less than preset's standard value, it descends to show discharge, and steerable solenoid valve of intaking is closed and is intake in order to cut off the pure water route, and the booster pump will not start, prevents the booster pump idle running, reduces filtration membrane module's work load to protection booster pump and filtration membrane module, increase of service life.

Preferably, the waterway system further comprises a second pressure detecting device electrically connected to the booster pump, and the second pressure detecting device is located on the pure water waterway and downstream of the booster pump.

In this scheme, adopt above-mentioned structural style, second pressure measurement can include pressure control switch, and pressure control switch is used for detecting the water pressure of filtration membrane module pure water discharge port, and when the user need use the pure water, when water pressure is less than preset's standard value, pressure control switch signals, and the operation pressure boost of control booster pump to satisfy the demand of pure water discharge.

Preferably, the waterway system further comprises a composite filter element, the composite filter element is located on the water inlet waterway, and a water outlet of the composite filter element is connected with the pure water waterway and the pure water waterway.

In this scheme, adopt above-mentioned structural style, silt, particulate impurity, chlorine residue and organic matter etc. in the aquatic can be got rid of to the water after composite filter filters, is the water after preliminary purification, satisfies the requirement of domestic water.

Preferably, the waterway system further comprises a first TDS detection device and a second TDS detection device, the first TDS detection device is located on the water inlet waterway, the second TDS detection device is located on the pure water waterway, and the filter membrane module is located between the first TDS detection device and the second TDS detection device.

In this scheme, adopt above-mentioned structural style, can effectively monitor filtering membrane module service behavior, can in time remind the user to change when filtering membrane module breaks down, guarantee the water quality.

Preferably, the waterway system further comprises compressed activated carbon, the compressed activated carbon is located on the pure water waterway, and an input end of the compressed activated carbon is connected with a pure water outlet of the filtering membrane component.

In this scheme, adopt above-mentioned structural style, the pure water that filtration membrane module pure water discharge port discharged filters the back through compressed activated carbon, adjusts the taste composition of pure water etc. and filters out the water that can drink.

Preferably, the waterway system further comprises a first detection waterway, a second detection waterway and a TOC detection device, wherein the input end of the first detection waterway is connected with the water inlet waterway, the input end of the second detection waterway is connected with the pure water outlet of the filtering membrane component, and the output ends of the first detection waterway and the second detection waterway are connected with the TOC detection device.

In this scheme, adopt above-mentioned structural style, through two service conditions that detect water route and TOC detection device can more accurate effectual control filtering membrane subassembly, guarantee the water quality.

A water purifier is characterized by comprising the waterway system.

The utility model discloses an actively advance the effect and lie in:

the utility model discloses a water route system and contain its water purifier through increasing at least one water purification water route and booster pump, satisfies existing big flux play water purification simultaneously, has little flux to go out the demand of pure water again, increases the water purification water route that does not pass through filtration membrane module after, has effectively reduced the waste of water resource, has reduced filtration membrane module's work load, has prolonged filtration membrane module's life.

Drawings

Fig. 1 is a schematic structural diagram of a waterway system according to embodiment 1 of the present invention.

Fig. 2 is a schematic structural diagram of a waterway system according to embodiment 2 of the present invention.

Description of reference numerals:

water inlet waterway 1

Pure water waterway 2

Water purification waterway 3

Filtering membrane component 4

Booster pump 5

Composite filter element 6

First pressure detection device 7

Water inlet electromagnetic valve 8

First TDS detection device 9

Compressed activated carbon 10

Second pressure detecting device 11

Second TDS detection device 12

TOC detection device 13

First detection waterway 14

Second detection water path 15

Detailed Description

The present invention will be more clearly and completely described below by way of examples with reference to the accompanying drawings, but the present invention is not limited thereto.

Example 1

As shown in fig. 1, the embodiment discloses a waterway system, which comprises a filtering membrane assembly 4, a water inlet waterway 1 and a pure water waterway 2, wherein the filtering membrane assembly 4 is located on the pure water waterway 2, an input end of the pure water waterway 2 is connected with an output end of the water inlet waterway 1, the waterway system further comprises a booster pump 5 and at least one pure water waterway 3, an input end of the pure water waterway 3 is connected with an output end of the water inlet waterway 1, and the booster pump 5 is located on the pure water waterway 2.

The filtration membrane module 4 in the water passage system has a waste water discharge port and a pure water discharge port. This water route system is through increasing at least one water purification water route 3, it is through intaking behind the water route 1, can flow in pure water route 2 and water purification water route 3 respectively, utilize 2 flows in the adjustable pure water route of booster pump 5, water route system has been optimized, the flow of two water has been guaranteed, satisfy existing big flux play water purification simultaneously, the demand that has little flux play pure water again, the problem that domestic water requires highly but the purification degree requirement is not high to discharge such as kitchen water washing has been solved, increase behind the water purification water route 3 that does not pass through filtration membrane module 4, the waste of water resource has effectively been reduced, filtration membrane module 4's work load has been reduced, the life of filtration membrane module 4 has been prolonged. The filtering membrane component 4 can comprise a reverse osmosis membrane and/or a nanofiltration membrane and the like.

As shown in fig. 1, the water path system further includes a first pressure detection device 7 and a water inlet solenoid valve 8, the first pressure detection device 7 is electrically connected to the water inlet solenoid valve 8, and the first pressure detection device 7 and the water inlet solenoid valve 8 are both located on the pure water path 2 and are both located upstream of the booster pump 5 and the filtering membrane module 4.

The first pressure detection device 7 is used for judging the water source pressure entering the pure water waterway 2, when the water pressure is lower than a preset standard value, the water flow is reduced, the first pressure detection device 7 can control the water inlet electromagnetic valve 8 to be closed to cut off the water inlet of the pure water waterway 2, the booster pump 5 can not be started, the booster pump 5 is prevented from idling, the work load of the filtering membrane component 4 is reduced, the booster pump 5 and the filtering membrane component 4 are protected, the service life is prolonged, the on-off of the pure water waterway 2 is controlled by the switch of the water inlet electromagnetic valve 8, the pure water waterway 2 can be quickly cut off under an abnormal condition, and no electromagnetic valve is arranged on the pure water waterway 3, so that the whole machine can normally use the pure water faucet under the power failure condition, for example. The first pressure detection means 7 may be a pressure control switch, such as a low pressure switch.

As shown in fig. 1, the water circuit system further includes a second pressure detection device 11, the second pressure detection device 11 is electrically connected to the booster pump 5, and the second pressure detection device 11 is located on the pure water circuit 2 and downstream of the booster pump 5.

Second pressure measurement 11 is used for controlling the switch of booster pump 5, and second pressure measurement 11 is used for detecting the water pressure of 4 pure water discharge ports of filtration membrane module, and when the user need use the pure water, when water pressure is less than the standard value of preset in second pressure measurement 11, second pressure measurement 11 signals, thereby control 5 operation supercharges of booster pump, thereby impel into thereby satisfying the demand of pure water discharge. Wherein the second pressure detecting device 11 may be a pressure control switch, such as a high-voltage switch.

As shown in fig. 1, the waterway system further comprises a composite filter element 6, the composite filter element 6 is positioned on the water inlet waterway 1, a water outlet of the composite filter element 6 is connected with the pure water waterway 2 and the pure water waterway 3, after the pure water tap is opened, tap water is driven by tap water pressure to pass through the composite filter element 6, silt, particle impurities, residual chlorine, organic matters and the like in water can be removed by filtered water, compared with tap water, the produced water is primarily filtered, and the characteristics of large domestic water flux and low purification degree requirement are met.

As shown in fig. 1, the waterway system further includes a first TDS detecting device 9 and a second TDS detecting device 12, the first TDS detecting device 9 is disposed on the water inlet waterway 1, the second TDS detecting device 12 is disposed on the pure water waterway 2, and the filtering membrane assembly 4 is disposed between the first TDS detecting device 9 and the second TDS detecting device 12. First TDS detection device 9 is used for detecting the concentration of the total dissolved material of former intake water, second TDS detection device 12 is used for detecting the concentration of the total dissolved material of the pure water after filtering, the value that will detect out contrasts, can effectively monitor filtration membrane module 4 situation of use, can in time remind the user to change when filtration membrane module 4 breaks down, guarantee the water quality, second TDS detection device 12 also can include pressure sensor behind the booster pump 5, the supplementary control filtration membrane module 4 situation of use.

As shown in fig. 1, the waterway system further includes compressed activated carbon 10, the compressed activated carbon 10 is located on the pure water waterway 2, an input end of the compressed activated carbon 10 is connected with a pure water outlet of the filtering membrane component 4, pure water discharged from a pure water outlet of the filtering membrane component 4 is filtered by the compressed activated carbon 10, and drinkable water is filtered by adjusting taste components of the pure water and the like.

The embodiment also discloses a water purifier, which comprises the waterway system. The problem that domestic water such as kitchen water washing and the like has high requirements on water flow but has not high requirements on purification degree is effectively solved through the water purifier, waste of water resources is effectively reduced, the workload of the filtering membrane component 4 is reduced, and the service life of the filtering membrane component 4 is prolonged.

Example 2

As shown in fig. 2, the same portions in embodiment 2 as those in embodiment 1 will not be repeated, and only the differences will be described. The waterway system further comprises a first detection waterway 14, a second detection waterway 15 and a TOC detection device 13, wherein the input end of the first detection waterway 14 is connected with the water inlet waterway 1, the input end of the second detection waterway 15 is connected with the pure water outlet of the filtering membrane component 4, and the output ends of the first detection waterway 14 and the second detection waterway 15 are connected with the TOC detection device 13.

Through the solenoid valve that the cut-off is located the detection water route, the part can flow into first detection water route 14 after intaking through composite filter element 6, and the pure water part that flows out from filtration membrane module 4 pure water outlet can flow into second detection water route 15, through two service conditions that detect water route and TOC detection device 13 can more accurate effectual control filtration membrane module 4, guarantees the water quality. The detected water is discharged from a pipeline connected with the waste water outlet, and a check valve is further arranged on the pipeline connected with the waste water outlet and the two detection water paths to ensure the accuracy of the detection device.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (7)

1. The utility model provides a waterway system, its includes filtering membrane subassembly, water inlet waterway and pure water waterway, filtering membrane subassembly is located pure water waterway, the input in pure water waterway with the output in water inlet waterway links to each other, a serial communication port, waterway system still includes booster pump and at least one pure water waterway, the input in pure water waterway with the output in water inlet waterway links to each other, the booster pump is located pure water waterway is last, waterway system still includes a pressure measurement device and a solenoid valve of intaking, a pressure measurement device electricity connect in the solenoid valve of intaking, a pressure measurement device with the solenoid valve of intaking all is located pure water waterway is last and all is located the booster pump with filtering membrane subassembly's upper reaches.

2. The waterway system of claim 1, further comprising a second pressure sensing device electrically connected to the booster pump, the second pressure sensing device being located on the plain water waterway and downstream of the booster pump.

3. The waterway system of claim 1, further comprising a composite filter element, wherein the composite filter element is positioned on the water inlet waterway, and a water outlet of the composite filter element is connected with the pure water waterway and the pure water waterway.

4. The waterway system of claim 1, further comprising a first TDS detection device positioned on the incoming water pathway and a second TDS detection device positioned on the pure water pathway, the filter membrane module positioned between the first TDS detection device and the second TDS detection device.

5. The waterway system of claim 1, further comprising compressed activated carbon positioned on the plain water waterway, an input end of the compressed activated carbon being connected to the plain water outlet of the filter membrane module.

6. The waterway system of claim 1, further comprising a first detection waterway, a second detection waterway and a TOC detection device, wherein an input end of the first detection waterway is connected to the water inlet waterway, an input end of the second detection waterway is connected to a pure water outlet of the filtering membrane assembly, and output ends of the first detection waterway and the second detection waterway are connected to the TOC detection device.

7. A water purifier, characterized in that it comprises a waterway system according to any one of claims 1 to 6.

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