CN205387509U - Can wash reverse osmosis membrane's water preparation system and purifier - Google Patents

Abstract

The utility model relates to a water purification device, which provides a water production system capable of flushing reverse osmosis membranes, which includes a pre-filter component, a booster pump, a reverse osmosis membrane, a rear filter component and a water storage container connected in series along the tap water purification sequence. , the reverse osmosis membrane is provided with a concentrated water outlet, and also includes a reverse osmosis flushing branch, one port of the reverse osmosis flushing branch is connected to the pure water outlet of the water storage container, and the other port is connected to the A pure water inlet of a booster pump; a water purifier including the above system is also provided. The system of the utility model carries out three times of filtration sequentially, which can prepare high-quality pure water. In addition, a flushing function is added in it, and the reverse osmosis membrane can be washed by the pure water in the water storage container, which can form a maintenance effect on the reverse osmosis membrane. , very convenient, not only can improve its service life, but also help to ensure the water production efficiency of the system.

Description

Water production system and water purifier with flushable reverse osmosis membrane

technical field

The utility model relates to a water purification device, in particular to a water making system capable of flushing a reverse osmosis membrane and a water purifier.

Background technique

At present, the known reverse osmosis water purifiers are all composed of a pre-filter element, a reverse osmosis membrane filter element, and a post-installed activated carbon filter element. With the increase in the amount of water filtered by the water purifier and the seriousness of water pollution, a large number of pollutants will quickly adhere to the filter element The filter element is clogged, which reduces the water production rate or affects the water quality, shortening the life of the filter element. The common solution is to flush or replace the filter element. From the perspective of resource conservation and full utilization, filter element flushing is preferred. However, most of the existing water purifiers on the market do not have a flushing function, and need to be manually disassembled for flushing, which is troublesome. However, the existing water purifiers with flushing function either use the wastewater produced by the reverse osmosis membrane for cleaning, and the cleaning effect is not good; , will also affect the flushing effect.

Utility model content

The purpose of the utility model is to provide a flushable reverse osmosis membrane water production system, aiming to solve the problem of inconvenient cleaning of the filter element in the existing water purifier.

The utility model is achieved in that:

The embodiment of the utility model provides a flushable reverse osmosis membrane water production system, which includes a pre-filter component, a booster pump, a reverse osmosis membrane, a post-filter component and a water storage container connected in series along the tap water purification sequence. The reverse osmosis membrane is provided with a concentrated water outlet, and also includes a reverse osmosis flushing branch, one port of the reverse osmosis flushing branch is connected to the pure water outlet of the water storage container, and the other port is connected to the booster pump imported pure water.

Further, the reverse osmosis membrane is placed vertically or horizontally.

Further, it also includes a pre-filter rinsing branch, the two ports of the pre-filter rinsing branch are respectively connected to the pure water inlet of the pre-filter assembly and the water outlet of the booster pump, and the front The filter element assembly is provided with a waste water outlet.

Specifically, the pre-filter element assembly includes a large PP cotton filter element, a pre-activated carbon filter element, and a small PP cotton filter element connected in series along the order of tap water purification. The waste water outlet is opened on the large PP cotton filter element. Set the filter element flushing branch to connect to the small PP cotton filter element.

Further, a first check valve and a second solenoid valve are connected in series on the flushing branch of the pre-filter element, and the first check valve is close to the pre-filter element assembly along the pure water flushing direction.

Further, a first solenoid valve is added on the flow path from the water outlet of the booster pump to the reverse osmosis membrane.

Further, a second check valve leading along the direction from the water storage container to the booster pump is provided on the reverse osmosis membrane flushing branch.

Further, a fourth solenoid valve is added on the reverse osmosis membrane flushing branch, and the fourth solenoid valve is located on the flow path between the second check valve and the booster pump.

Further, a third solenoid valve is provided on the flow path between the water outlet of the pre-filter element assembly and the water inlet of the booster pump.

The embodiment of the utility model also provides a water purifier, including a body, and also includes the above-mentioned water production system with a flushable reverse osmosis membrane, and the pre-filter assembly is arranged inside the body or outside the body .

The utility model has the following beneficial effects:

In the system of the present utility model, during normal water production, the tap water first enters the pre-filter assembly for filtration, and then guides it to the reverse osmosis membrane through the booster pump for reverse osmosis filtration, and the concentrated water generated in this process is discharged from the concentrated water The prepared pure water is filtered again by the rear filter element and stored in the water storage container. After the water production is stopped, the flushing process can be started, and the pure water in the water storage container can be released under the action of the booster pump. The pure water is discharged from the outlet to the reverse osmosis membrane to flush the reverse osmosis membrane, thereby cleaning the reverse osmosis membrane and improving the service life of the reverse osmosis membrane. In the above whole process, the system can automatically realize the maintenance of the reverse osmosis membrane, which is not only very convenient, but also has obvious cleaning and maintenance effects due to the use of pure water washing, which can effectively improve the service life of the reverse osmosis membrane and the water production efficiency.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are only some embodiments of the present utility model, and those skilled in the art can also obtain other drawings according to these drawings without creative work.

Fig. 1 is the structural representation of the water production system of the flushable reverse osmosis membrane that the utility model embodiment provides;

Fig. 2 is the flushing schematic diagram of the reverse osmosis membrane of the water system of the flushable reverse osmosis membrane of Fig. 1;

Fig. 3 is a schematic diagram of flushing of the pre-filter assembly of the water system of the flushable reverse osmosis membrane of Fig. 1;

Fig. 4 is a structural diagram of adding a fourth solenoid valve to the reverse osmosis flushing branch of the flushable water production system in the water purifier shown in Fig. 1 .

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Referring to Fig. 1 and Fig. 2, the embodiment of the present utility model provides a water production system 1 capable of flushing reverse osmosis membrane, which is mainly used to prepare tap water 2 into pure water, which includes a pre-filter assembly 11 along the purification sequence of tap water 2 , booster pump 12, reverse osmosis membrane 13, rear filter element assembly 14 and water storage container 15, the above-mentioned components are connected in series with pipelines in sequence, that is, tap water 2 passes through the pre-filter element assembly 11, booster pump 12, reverse osmosis membrane 13 in sequence , the rear filter element assembly 14 and the water storage container 15, the reverse osmosis membrane 12 is provided with a concentrated water outlet 131, when tap water is reverse osmosis at the reverse osmosis membrane 13, the concentrated water produced is discharged from the concentrated water outlet 131, the system 1 A reverse osmosis flushing branch 16 is also included, and the reverse osmosis flushing branch 16 is connected to the pure water outlet of the water storage container 15 and the pure water inlet of the booster pump 12 . In the utility model, the water production process includes three filtrations, which are the filtration of the pre-filter assembly 11, the reverse osmosis filtration of the reverse osmosis membrane 13, and the filtration of the rear filter assembly 14, so that the quality of pure water after preparation can be relatively high. , and after the water production process stops, the pure water in the water storage container 15 can be guided to the reverse osmosis membrane 13 by the pure water outlet through the booster pump 12 and the reverse osmosis membrane 13 is washed, and the concentrated water produced It can be discharged from the concentrated water outlet 131 to maintain the reverse osmosis membrane 13 . In the above process, for the concentrated water outlet 131, the system 1 can form a flushing circuit to clean and maintain the pre-filter assembly 11 and the reverse osmosis membrane 13 respectively, which can not only enhance the service life of the two, but also benefit the entire system 1 water production efficiency, and because the flushing water is prepared pure water, the cleaning effect of the reverse osmosis membrane 13 is relatively good, and cleaning can be realized without disassembling some parts, which is very convenient.

To optimize the above embodiment, the reverse osmosis membrane 13 is placed vertically or horizontally. In this embodiment, the setting mode of the reverse osmosis membrane 13 is optimized. When the reverse osmosis membrane 13 is placed vertically, the tap water or pure water filtered by the booster pump will enter the reverse osmosis membrane 13 from above the reverse osmosis membrane 13. , the concentrated water produced by filtration is collected under the reverse osmosis membrane 13, and of course the pure water outlet is also located under the reverse osmosis membrane 13, so that when the reverse osmosis membrane 13 is flushed, it is more conducive to the sufficient concentration of concentrated water on the reverse osmosis membrane 13 In another way, the reverse osmosis membrane 13 is set horizontally, and when the reverse osmosis membrane 13 is flushed, it can also prevent its own gravity from causing a large discharge of the concentrated water on the reverse osmosis membrane 13. Impact.

Referring to Fig. 3, to continue to optimize the above embodiment, the system 1 also includes a pre-filter flushing branch 17, the pre-filter flushing branch 17 communicates with the water outlet of the booster pump 12 and the pure water inlet of the pre-filter assembly 11, and The pre-filter assembly 11 has a waste water outlet 111 . In this embodiment, another flushing flow path is added to the system 1. After the water production process stops, the pure water can also be guided to the pre-filter element flushing branch 17 through the booster pump 12, and then the pre-filter element The flushing branch 17 flushes the pre-filter element assembly 11, and the waste water generated can be discharged from the waste water outlet 111, so as to achieve the maintenance effect on the pre-filter element assembly 11. Since the pre-filter element assembly 11 is rinsed with pure water, it can not only strengthen the pre-filter element assembly 11 The service life of the filter element assembly 11 can be extended, and the water production efficiency of the entire system 1 can be further improved.

Refined pre-filter element assembly 11, which includes a large PP cotton filter element 112, a pre-activated carbon filter element 113 and a small PP cotton filter element 114, the three are connected in series along the purification sequence of tap water 2, that is, tap water 2 passes through the large PP cotton filter element 112 in sequence , pre-activated carbon filter element 113 and small PP cotton filter element 114 for filtering, and the above-mentioned waste water outlet 111 is opened on the large PP cotton filter element 112, and the pre-filter element flushing branch 17 is connected to the small PP cotton filter element 114. In this embodiment, the pre-filter element assembly 11 is an integrated filter element, and the filtration accuracy of the three along the purification sequence of the tap water 2 increases successively, so that the filtration accuracy of the pre-filter element assembly 11 is very high. The small PP cotton filter element 114, the pre-activated carbon filter element 113 and the large PP cotton filter element 112 are finally discharged from the waste water outlet 111, and the size of the flushing impurities increases in turn, which is beneficial to ensure the flushing effect. Impurities can be washed to the waste water outlet 111. Since the tap water 2 is prepared as pure water after the action of the reverse osmosis membrane 13, the rear filter element assembly 14 only needs to have a rear activated carbon filter element.

Referring to FIGS. 1-3 , further, a first solenoid valve 132 is added on the flow path from the water outlet of the booster pump 12 to the rear filter element assembly 14 . The first electromagnetic valve 132 is electrically connected to the control board, that is, the control board controls the on-off of the first electromagnetic valve 132, so that the on-off of the flow path can be realized. Generally, a second electromagnetic valve 171 is connected in series on the pre-filter element flushing branch 17, and a third electromagnetic valve 121 is connected in series on the flow path between the water outlet of the pre-filter element assembly 11 and the water inlet of the booster pump 12. , the on-off of the corresponding flow path is controlled by each solenoid valve, and they are all electrically connected to the control board, which controls the on-off. Specifically, during normal water production, the second solenoid valve 171 is closed, the first solenoid valve 132 and the third solenoid valve 121 are opened, and the tap water 2 can only flow along the front filter element assembly 11, booster pump 12, reverse osmosis membrane 13, rear Set the filter element assembly 14 and the water storage container 15 to flow; when the reverse osmosis membrane 13 is flushed, the first electromagnetic valve 132 is opened, the second electromagnetic valve 171 and the third electromagnetic valve 121 are closed, and pure water can only flow along the water storage container 15, The booster pump 12 and the reverse osmosis membrane 13 flow; when the pre-filter assembly 11 is flushed, the second solenoid valve 171 is opened, the first solenoid valve 132 and the third solenoid valve 121 are closed, and the pure water can only flow along the water storage container 15 , booster pump 12 and pre-filter assembly 11 flow. Among the various functions mentioned above, according to actual needs, the control board controls the opening or closing of the corresponding solenoid valve, which can be done automatically in the system 1 or manually controlled by the user, which is very convenient.

Referring to FIG. 4 , to optimize the above embodiment, a first check valve 172 is connected in series on the pre-filter element flushing branch 17 , and the first non-return valve 172 is close to the pre-filter element assembly 11 along the pure water flushing direction. In this embodiment, a first check valve 172 is added to the pre-filter element flushing branch 17, and when flushing the pre-filter element assembly 11, the pure water passes through the second electromagnetic valve 171 and the first check valve in sequence. 172, the first non-return valve 172 conducts in one direction, pure water can only enter the pre-filter element assembly 11 from the booster pump 12, which can effectively prevent the water pressure at the pre-filter element assembly 11 from affecting the second The electromagnetic valve 171 produces an impact, which further affects the performance of the second electromagnetic valve 171 . Further, the reverse osmosis flushing branch 16 is provided with a second check valve 161, which is unidirectionally connected to the reverse osmosis flushing branch 16 along the direction from the water storage container 15 to the booster pump 12, so as to avoid the pressure of the booster pump 12. The tap water 2 at the place enters the water storage container 15 by the reverse osmosis flushing branch 16 to ensure the pure water quality in the water storage container 15. Optimize the reverse osmosis flushing branch 16, which is also provided with a fourth solenoid valve 162, and the fourth solenoid valve 162 is located on the flow path between the second check valve 161 and the booster pump 12, which can avoid insufficient pressure of tap water At this time, the booster pump 12 pumps the pure water in the water storage container 15 to repeat water production, thereby affecting the water production rate and wasting resources.

Referring again to FIG. 1 , an embodiment of the present invention also provides a water purifier, including a body and the above-mentioned system 1 , the pre-filter assembly 11 of the system 1 is arranged inside the body or outside the body. In this embodiment, the above-mentioned system 1 is applied to the water purifier, so that the water purifier has two flushing functions, the operation is very convenient, and the water purifier can effectively improve the pre-filter assembly 11 and the reverse osmosis membrane 13. service life, and can improve water production efficiency. When the body and the system 1 are installed together, most of the components of the system 1 are installed in the body, and the pre-filter element assembly 11 has a longer service life than the post-filter element assembly 14 because it is the first filter element of tap water. If the length is short, the replacement is more frequent. For the convenience of its disassembly and assembly, it can be placed on the outside of the body, and of course it can also be installed on the inside of the body.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present utility model shall be included in the Within the protection scope of the present utility model.

Claims (10)

1. the water manufacturing system of a flushable reverse osmosis membrane, the preposition element kit, booster pump, reverse osmosis membrane, rearmounted element kit and the tank that are sequentially connected in series is included along tap water purifying order, described reverse osmosis membrane is provided with concentrated water drainage mouth, it is characterized in that: also include reverse osmosis and rinse branch road, described reverse osmosis is rinsed branch road Single port and is communicated to the pure water outlet of described tank, and another port is communicated to the purified water inlet of described booster pump.

2. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 1, it is characterised in that: described reverse osmosis membrane forward is vertically placed or is horizontally disposed with.

3. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 2, it is characterized in that: also include preposition filter element and rinse branch road, described preposition filter element rinses two ports of branch road and is respectively communicated with the purified water inlet of described preposition element kit and the outlet of described booster pump, and described preposition element kit is provided with waste water row's mouth.

4. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 3, it is characterized in that: described preposition element kit includes the big PP cotton filter element, preposition activated charcoal filter element and the little PP cotton filter element that are sequentially connected in series along tap water purifying order, described waste water row's mouth is opened on described big PP cotton filter element, and described preposition filter element rinses branch road and is communicated to described little PP cotton filter element.

5. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 3, it is characterized in that: rinse in described preposition filter element and branch road is in series with the first non-return valve and the second electromagnetic valve, and described first non-return valve along pure water rinsing direction near described preposition element kit.

6. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 1, it is characterised in that: the outlet in described booster pump has additional the first electromagnetic valve to the stream of described reverse osmosis membrane.

7. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 1, it is characterised in that: the second non-return valve being provided with on branch road along described tank to the conducting of described booster pump direction is rinsed in described reverse osmosis membrane.

8. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 7, it is characterised in that: rinse in described reverse osmosis membrane and branch road has additional the 4th electromagnetic valve, and on the stream that described 4th electromagnetic valve is between described second non-return valve and described booster pump.

9. the water manufacturing system of flushable reverse osmosis membrane as claimed in claim 1, it is characterised in that: the stream between the outlet and the water inlet of described booster pump of described preposition element kit is provided with the 3rd electromagnetic valve.

10. a water purifier, including body, it is characterised in that: also include the water manufacturing system of flushable reverse osmosis membrane as described in any one of claim 1-9, and described preposition element kit is arranged in described body or is arranged at outside described body.