CN211999117U - Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier - Google Patents

Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier Download PDF

Info

Publication number
CN211999117U
CN211999117U CN202020382835.9U CN202020382835U CN211999117U CN 211999117 U CN211999117 U CN 211999117U CN 202020382835 U CN202020382835 U CN 202020382835U CN 211999117 U CN211999117 U CN 211999117U
Authority
CN
China
Prior art keywords
water
reverse osmosis
filter element
purification system
pressure
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN202020382835.9U
Other languages
Chinese (zh)
Inventor
杨华
龚圆杰
覃进武
张涛
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chunmi Technology Shanghai Co Ltd
Original Assignee
Shanghai Chunmi Electronics Technology Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shanghai Chunmi Electronics Technology Co Ltd filed Critical Shanghai Chunmi Electronics Technology Co Ltd
Priority to CN202020382835.9U priority Critical patent/CN211999117U/en
Application granted granted Critical
Publication of CN211999117U publication Critical patent/CN211999117U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Landscapes

  • Separation Using Semi-Permeable Membranes (AREA)

Abstract

The utility model discloses a three-core reverse osmosis water purification system and three-core reverse osmosis water purifier, this three-core reverse osmosis water purification system includes leading composite filter element, reverse osmosis filter element and rearmounted filter element, this overhead tank sets up between reverse osmosis filter element and rearmounted filter element, is used for storing the pure water after this reverse osmosis filter element purifies, controlling means detects the system water of pressure value control water purification system based on the pressure detector, make the pure water of storing in the overhead tank and the pure water that the reverse osmosis filter element was made flow out simultaneously when water purification system goes out water; wherein the volume of the pressure tank is less than a preset value, and the water purifying amount of the water purifying system per hour ranges from 150 gallons to 250 gallons. This technical scheme can reduce cost, reduces the complete machine volume, guarantees the velocity of water, has solved the problem that first cup water TDS value is high, noise abatement, and the reliability is high.

Description

Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier
Technical Field
The disclosure relates to the technical field of water purification, in particular to a three-core reverse osmosis water purification system and a three-core reverse osmosis water purifier.
Background
The water purifier is a water treatment device for deeply filtering and purifying water according to the use requirement of water, generally refers to a small purifier used in households, and mainly comprises a small-flux water purifier and a large-flux water purifier. Wherein, the small-flux water purifier generally refers to a 50/75/100 gallon water purifier, and the corresponding water yield is 0.13/0.19/0.26L/min respectively; because the water yield is low, pure water is generally required to be prepared and stored in the pressure tank, so that water can be discharged from the pressure tank firstly when water is taken, the water discharging speed is high, and the duration time is short; the large-flux water purifier generally refers to a 400/600/800 gallon water purifier, the corresponding water yield is 1/1.5/2L/min respectively, and the water can be filtered and drunk immediately due to the high water production speed.
The existing water purifiers with the two specifications have the advantages and disadvantages, and the pressure tank configured by the small-flux water purifier has a large volume generally, so that the small-flux water purifier occupies a space under a kitchen and causes the space under the kitchen to be crowded; if the pressure tank has a large amount of water, bacteria are easy to breed; although small, high flux water purifiers have expensive filter elements, high cost, and high TDS (Total Dissolved Solids) of the first cup of water.
SUMMERY OF THE UTILITY MODEL
In order to overcome the problems in the related art, the embodiment of the disclosure provides a three-core reverse osmosis water purification system and a three-core reverse osmosis water purifier. The technical scheme is as follows:
according to an aspect of the disclosed embodiments, there is provided a three-core reverse osmosis water purification system, comprising:
the water inlet pipeline is sequentially communicated with a preposed composite filter element, a water inlet valve and a booster pump in series;
the reverse osmosis filter element is provided with a water inlet, a pure water outlet and a wastewater outlet, and the water outlet of the booster pump is communicated with the water inlet;
the waste water outlet is communicated with the waste water pipeline;
the pure water outlet is communicated with the pure water pipeline, and the pure water pipeline is provided with a check valve, a pressure detector, a pressure tank and a rear filter element; the check valve is arranged between the pure water outlet and the pressure tank and used for limiting the flow direction of pure water to be the direction from the pure water outlet to the pressure tank; the pressure tank is arranged between the check valve and the rear filter element; the volume of the pressure tank is smaller than a preset value;
the control device is connected with the pressure detector, the water inlet valve and the booster pump, the pressure detector is used for detecting a first pressure signal of the pressure tank and transmitting the first pressure signal to the control device when pure water in the pressure tank is stored to a preset threshold value, and the control device controls the booster pump and the water inlet valve to be closed based on the received first pressure signal and stops water production; the pressure detector is used for detecting a second pressure signal of the pressure tank and transmitting the second pressure signal to the control device when the outlet of the pure water pipeline is opened, and the control device controls the booster pump and the water inlet valve to be opened based on the received second pressure signal to start water production so that the pure water stored in the pressure tank and the pure water produced by the reverse osmosis filter element simultaneously flow to the outlet of the pure water pipeline;
wherein the three-core reverse osmosis water purification system has a water purification capacity ranging from 150 gallons to 250 gallons per hour.
In one embodiment, the range of diameters of the pressure tank includes: 120mm-140mm, the height range of the pressure tank comprises: 280mm-300 mm.
In one embodiment, the preset threshold comprises 1.3L to 1.8L.
In one embodiment, the pressure detector comprises a high-voltage switch.
In one embodiment, a waste water valve is arranged on the waste water pipeline, a water through hole is formed in the waste water valve, the waste water valve is connected with the control device, the control device controls the waste water valve to open a valve port in a preset time period, and when the waste water valve closes the valve port, waste water flowing out of the waste water outlet flows to the outlet of the waste water pipeline through the water through hole.
In one embodiment, the pre-composite filter element comprises a polypropylene fiber PP and a carbon rod composite filter element.
In one embodiment, the post-filter element comprises an activated carbon filter element.
According to a second aspect of the embodiments of the present disclosure, a three-core reverse osmosis water purifier is provided, which includes the three-core reverse osmosis water purification system.
The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:
1. the reverse osmosis water purification system has the advantages that the water purification amount per hour ranges from 150 gallons to 250 gallons, and the water outlet speed of 500 gallons of the large-flux water purifier can be achieved under the condition that pure water is output by the pressure tank and the water purification system at the same time; because the water production speed is 150 gallons to 250 gallons per hour and is lower than the large flux, the used power adapter, booster pump, filter element and the like have low cost, and the large flux water yield can be realized at an economically applicable price; and the filter element in the water purification system is a consumable, and the cost for replacing the filter element is high by adopting a medium-small flux water purifier.
2. The pressure tank in the double-core reverse osmosis water purification system has the advantages that the volume is smaller than a preset value, the volume is small, the water storage capacity is small, the water purification system can be circulated quickly, and bacteria are not easy to breed after being left for a long time; the pressure tank can be arranged in the whole machine, and the pressure tank does not need to be arranged outside the water purifier main machine, so that the volume of the water purifier is reduced; because the water production part of the water purification system and the pressure tank simultaneously discharge water when discharging water, the instant pressure tank has smaller volume and can also ensure the longer-time faster water discharging speed; because the overhead tank is small in size and the water purification system is faster than the small-flux water purifier, the overhead tank can be quickly filled to a preset threshold value, water production is stopped, and the water production time of the water purification system is shortened.
3. As is known, if the large flux is not used for a long time, the TDS value of the first cup of water is very high, and if parts are needed to solve the problem, the cost is directly increased; and this water purification system's during water purification system's system water part and overhead tank are gone out simultaneously, and the TDS value of first cup of water can be diluted by the pure water of storing in the overhead tank, has just solved the problem that first cup of water TDS value is high.
4. This disclosure uses this overhead tank to store pure water, and the pressure in the overhead tank extrudes water when going out water, does not need extra power, and is with low costs and noiselessness.
5. The water purification system provided by the disclosure uses conventional water purification devices and pressure tanks, and is high in reliability after long-term market verification.
It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.
Fig. 1 is a schematic diagram illustrating a three-core reverse osmosis water purification system according to an exemplary embodiment.
Detailed Description
Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.
Fig. 1 is a schematic diagram illustrating a three-core reverse osmosis water purification system according to an exemplary embodiment.
As shown in fig. 1, the three-core reverse osmosis water purification system includes: the water inlet pipeline 10 is sequentially connected with a preposed composite filter element 11, a water inlet valve 12 and a booster pump 13 in series on the water inlet pipeline 10; the Reverse Osmosis (RO, Reverse Osmosis) filter element 20 is provided with a water inlet 201, a pure water outlet 202 and a wastewater outlet 203, and a water outlet 131 of the booster pump 13 is communicated with the water inlet 201. The waste water pipeline 30 is communicated with the waste water outlet 203; the pure water pipeline 40 is communicated with the pure water outlet 202, the pure water pipeline 40 is provided with a check valve 41, a pressure detector 42, a pressure tank 43 and a post-filter element 44, the check valve 41 is arranged between the pure water outlet 202 and the pressure tank 43, and the pressure tank 43 is arranged between the check valve 41 and the post-filter element 44; the volume of the pressure tank 43 is less than a preset value; the control device (not shown in the figure) is connected with the booster pump 13, the water inlet valve 12 and the pressure detector 42, the pressure detector 42 is used for detecting a first pressure signal of the pressure tank 43 and transmitting the first pressure signal to the control device when pure water in the pressure tank 43 is stored to a preset threshold value, and the control device controls the booster pump 13 and the water inlet valve 12 to be closed and stops water production based on the received first pressure signal; the pressure detector 42 is configured to detect a second pressure signal of the pressure tank 43 and transmit the second pressure signal to the control device when the outlet of the pure water pipeline is opened, and the control device controls the pressurizing pump 13 and the water inlet valve 12 to be opened based on the received second pressure signal, so as to start water production, so that the pure water stored in the pressure tank 43 and the water filtered by the reverse osmosis filter element 20 simultaneously flow to the outlet 401 of the pure water pipeline 40; wherein the three-core reverse osmosis water purification system has a water purification capacity ranging from 150 gallons to 250 gallons per hour. Preferably, the three-core reverse osmosis water purification system has a water purification capacity in the range of 200 gallons per hour.
In the present disclosure, the water inlet pipeline 10 is connected to an outlet 50 of an external water source, such as municipal tap water shown in fig. 1, raw water flowing out of the external water source firstly flows into the front composite filter element 11 from a water inlet of the front composite filter element 11 through the water inlet pipeline 10, the front composite filter element 11 filters large particle impurities and some colored impurities in water and then outputs the water from a water outlet of the front composite filter element 11, so as to prevent the impurities in water from damaging devices such as the rear water inlet valve 12, the booster pump 13 and the reverse osmosis filter element 20, and thus effectively prolong the service life of the reverse osmosis water purification system.
In the present disclosure, in order to control the magnitude of the water flow and to control the operation of the reverse osmosis filter 20 in cooperation with the booster pump 13, a water inlet valve 12 is generally disposed on the water inlet pipeline 10, and the water inlet valve 12 may be a solenoid valve. This reverse osmosis filter core 20 needs the water that passes through this reverse osmosis filter core 20 to have certain pressure at the during operation, so set up booster pump 13 and provide power for rivers for water after this leading composite filter core 11 purifies gets into booster pump 13 back through water intaking valve 12, can be by this booster pump 13 increase pressure, and then purifies through reverse osmosis filter core 20 under the effect of pressure. After the water inlet valve 12 is opened, the water purified by the pre-composite filter element 11 can enter the water inlet of the booster pump 13 through the valve port of the water inlet valve 12, the pressure is increased by the booster pump 13, and then the water flows from the water outlet 131 of the booster pump 13 to the water inlet 201 of the reverse osmosis filter element 20, and then enters the reverse osmosis filter element 20 for purification, the pure water purified by the reverse osmosis filter element 20 flows into the pure water pipeline 40 through the pure water outlet 202, the filtered wastewater flows into the wastewater pipeline 30 through the wastewater outlet 203, when the water inlet valve 12 is closed, the booster pump 13 is correspondingly closed, the water flow stops entering the reverse osmosis filter element 20, and the reverse osmosis filter element 20 stops working.
In the present disclosure, the reverse water valve 41 is required to be located between the pressure tank 43 and the pure water outlet 202, so as to limit the water flow direction of the pure water, so that the pure water output by the reverse osmosis filter element 20 can only flow from the pure water outlet 202 to the pressure tank 43, but cannot flow back into the reverse osmosis filter element from the pressure tank 43 to the pure water outlet 202, thereby preventing the reverse osmosis filter element from being damaged. The pressure detector 42 may be located anywhere on the plain water line 40, and for example, as shown in FIG. 1, the pressure detector 42 may be located between the check valve 41 and the pressure tank 43. This rearmounted filter core 44 is used for carrying out the purification for the last time to the pure water, need set up behind overhead tank 43, like this, can carry out further purification to the water of storing in the overhead tank 43, impurity such as the bacterium that the water storage time overlength produced in this overhead tank 43 of filtering guarantees the safety and sanitation of user's water.
In the present disclosure, the purified water in the water purification system flows from the outlet of the purified water pipeline 40 to the faucet, and when the faucet is in a closed state, the purified water output from the reverse osmosis filter element 20 flows into the pressure tank 43 through the reverse water valve 41 and the filling opening of the pressure tank 43, the water level in the pressure tank 43 rises, the air in the tank is compressed, and the pressure increases accordingly. When the pure water in the pressure tank 43 is stored to a preset threshold value, and the pressure in the tank reaches a specified upper limit pressure value, the pressure detector 42 detects a first pressure signal when the pressure tank 43 reaches the upper limit pressure value and transmits the first pressure signal to the control device, and the control device controls the booster pump 13 and the water inlet valve 12 to be closed, so as to stop making water; when a user opens the faucet to start water supply, the pressure in the pressure tank 43 will automatically squeeze the pure water in the pressure tank 43, the pure water stored in the pressure tank 43 will only flow to the post-filter element 44 and will not flow back to the reverse osmosis filter element 20 under the direction limitation of the check valve 41 after flowing out from the filling opening of the pressure tank 43, the pressure detector 42 will detect the second pressure signal of the pressure drop of the pressure tank 43 and transmit the second pressure signal to the control device, and the control device will control the booster pump 13 and the water inlet valve 12 to open, so that the raw water passes through the pre-composite filter element 11 and the reverse osmosis filter element 20 to start water supply, so that the pure water stored in the pressure tank 43 and the pure water produced by the reverse osmosis filter element 20 simultaneously flow to the outlet of the pure water pipeline.
The three-core reverse osmosis water purification system that this disclosure provided has following advantage:
1. the purified water amount range per hour comprises 150 gallons to 250 gallons, and the water outlet speed of 500 gallons of the large-flux water purifier can be achieved under the condition that the pressure tank 43 outputs pure water simultaneously with water production of the water purification system; because the water production speed is 150 gallons to 250 gallons per hour and is lower than the large flux, the used power adapter, the booster pump 13, the filter element and the like have low cost, and the large flux water yield can be realized at an economically applicable price; the filter element in the water purification system is a consumable material, and the cost for replacing the filter element is high by adopting a medium-and-small-flux water purifier;
2. the pressure tank in the double-core reverse osmosis water purification system has the advantages that the volume is smaller than a preset value, the volume is small, the water storage capacity is small, the water purification system can be circulated quickly, and bacteria are not easy to breed after being left for a long time; the pressure tank can be arranged in the whole machine, and the pressure tank does not need to be arranged outside the water purifier main machine, so that the volume of the water purifier is reduced; because the water production part of the water purification system and the pressure tank simultaneously discharge water when discharging water, the instant pressure tank has smaller volume and can also ensure the longer-time faster water discharging speed; because the overhead tank is small in size and the water purification system is faster than the small-flux water purifier, the overhead tank can be quickly filled to a preset threshold value, water production is stopped, and the water production time of the water purification system is shortened.
3. As is known, if the large flux is not used for a long time, the TDS value of the first cup of water is very high, and if parts are needed to solve the problem, the cost is directly increased; and this water purification system's during water outlet system's system water part and overhead tank 43 go out water simultaneously, and the TDS value of first cup of water can be diluted by the pure water of storing in overhead tank 43, has just solved the high problem of first cup of water TDS value.
4. This pressure tank 43 is used to store pure water in this disclosure, and the pressure in the pressure tank 43 extrudes water when going out water, does not need extra power, and is with low costs and noiselessness.
5. The water purification system provided by the disclosure uses the conventional water purification device and the pressure tank 43, and has high reliability after long-term market verification.
In a possible embodiment, the range of diameters of the pressure tank 43 includes: 120mm-140mm, the height range of the pressure tank 43 comprises: 280mm-300 mm.
Preferably, the pressure tank 43 may have a diameter of 130mm and a height of 290 mm.
In one possible embodiment, the preset threshold comprises 1.3L to 1.8L. Namely, the pressure tank 43 can store 1.3L to 1.8L of water at the maximum.
For example, assuming that the purified water amount of the water purification system is 200 gallons per hour, that is, the water production speed is about 0.5L/min, the size of the pressure tank 43 is 130mm in diameter and 290mm in height, and the maximum water storage of the pressure tank 43 is 1.5L, the water purification system can continuously produce about 2.5L of water at a speed of 1.25L/min within 2 minutes, which is equivalent to a water production speed of 500 gallons and is the same as the water production speed of high flux, and the water purification system is usually used for domestic water, usually, the domestic water usage amount is not more than 2.5L for one time, so that a large water production speed can be obtained for each time of water taking, and the situation that the water production amount is rapidly reduced does not occur, thereby ensuring the water usage for users.
In one possible embodiment, the pressure detector 42 may be a high-pressure switch.
In the present disclosure, when pure water in the pressure tank 43 is stored to a preset threshold value, and the pressure in the pressure tank reaches a specified upper limit pressure value, the high-pressure switch will open the conductive loop, and the control device finds that the conductive loop is disconnected, and then controls the booster pump 13 and the water inlet valve 12 to be closed, so as to stop water production; when a user opens the faucet to start water use, the pressure of the pressure tank 43 is reduced, the high-pressure switch is automatically reset to a closed state, and the control device finds that the conductive loop is conducted to control the booster pump 13 and the water inlet valve 12 to be opened, so that raw water starts to make water through the pre-composite filter element 11 and the reverse osmosis filter element 20, and pure water stored in the pressure tank 43 and pure water made by the reverse osmosis filter element 20 simultaneously flow to the outlet of the pure water pipeline.
In a possible embodiment, as shown in fig. 1, a waste water valve 31 is disposed on the waste water pipeline 30, a water through hole is disposed on the waste water valve 31, the waste water valve 31 is connected to the control device, the control device controls the waste water valve to open a valve port for a predetermined period of time, and the control device controls the waste water flowing out of the waste water outlet to flow to the outlet 301 of the waste water pipeline 30 through the water through hole when the waste water valve closes the valve port.
Here, the smaller the aperture of the water passing hole of the waste water valve is, the lower the flow rate of the waste water is, the specific size of the water passing hole needs to be selected according to the water purifying capacity of the reverse osmosis filter element 20, and when the water purifying capacity of the reverse osmosis filter element 20 is higher, the smaller the aperture of the water passing hole can be set. The waste water valve can be a normally closed type direct-acting electromagnetic valve, when the waste water valve is used at ordinary times, a valve port of the waste water valve is kept in a closed state, and waste water filtered by the reverse osmosis filter element 20 flows to the outlet 301 of the waste water pipeline 30 through the water through hole. When the water purification system needs to be cleaned, the control device can control the wastewater valve to be electrified to open the valve port for a certain period of time, so that a wider flow channel is provided for wastewater, a large amount of water can flow through the flow channel quickly, and the purpose of better flushing the water purification system is achieved.
In one possible embodiment, the pre-composite filter element comprises a PP and carbon rod composite filter element, which may also be referred to as a PCB composite filter element; wherein the PP is a synthetic chemical fiber made of polypropylene fiber. This composite filter can filter the large granule impurity and some coloured impurity of aquatic, avoids the impurity damage original papers such as water intaking valve 12, booster pump 13 and reverse osmosis filter core 20 of aquatic to effectively improve this water purification system's life.
In one possible embodiment, the post-filter element 44 comprises a post-activated carbon filter element.
This rearmounted activated carbon filter core sets up the final position in pure water pipeline for further filtering for the pure water that flows through filters the particulate impurity and some coloured impurity in the aquatic.
The present disclosure further provides a three-core reverse osmosis water purifier, which includes a housing and the three-core reverse osmosis water purification system disposed in the housing, and the specific structure of the three-core reverse osmosis water purification system refers to the above embodiments.
Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains.
It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure should be limited only by the attached claims.

Claims (8)

1. A three-core reverse osmosis water purification system, comprising:
the water inlet pipeline is sequentially communicated with a preposed composite filter element, a water inlet valve and a booster pump in series;
the reverse osmosis filter element is provided with a water inlet, a pure water outlet and a wastewater outlet, and the water outlet of the booster pump is communicated with the water inlet;
the waste water outlet is communicated with the waste water pipeline;
the pure water outlet is communicated with the pure water pipeline, and the pure water pipeline is provided with a check valve, a pressure detector, a pressure tank and a rear filter element; the check valve is arranged between the pure water outlet and the pressure tank and used for limiting the flow direction of pure water to be the direction from the pure water outlet to the pressure tank; the pressure tank is arranged between the check valve and the rear filter element; the volume of the pressure tank is smaller than a preset value;
the control device is connected with the pressure detector, the water inlet valve and the booster pump, the pressure detector is used for detecting a first pressure signal of the pressure tank and transmitting the first pressure signal to the control device when pure water in the pressure tank is stored to a preset threshold value, and the control device controls the booster pump and the water inlet valve to be closed based on the received first pressure signal and stops water production; the pressure detector is used for detecting a second pressure signal of the pressure tank and transmitting the second pressure signal to the control device when the outlet of the pure water pipeline is opened, and the control device controls the booster pump and the water inlet valve to be opened based on the received second pressure signal to start water production so that the pure water stored in the pressure tank and the pure water produced by the reverse osmosis filter element simultaneously flow to the outlet of the pure water pipeline;
wherein the three-core reverse osmosis water purification system has a water purification capacity ranging from 150 gallons to 250 gallons per hour.
2. The three-core reverse osmosis water purification system of claim 1, comprising:
the diameter range of the pressure tank comprises: 120mm-140mm, the height range of the pressure tank comprises: 280mm-300 mm.
3. The three-core reverse osmosis water purification system of claim 1, comprising:
the preset threshold value comprises 1.3L to 1.8L.
4. The three-core reverse osmosis water purification system of claim 1, comprising:
the pressure detector includes a high-voltage switch.
5. The three-core reverse osmosis water purification system of claim 1, comprising:
the waste water pipeline is provided with a waste water valve, the waste water valve is provided with a water through hole, the waste water valve is connected with the control device, the control device controls the waste water valve to open a valve port in a preset time period, and when the control device controls the waste water valve to close the valve port, waste water flowing out of the waste water outlet flows to an outlet of the waste water pipeline through the water through hole.
6. The three-core reverse osmosis water purification system of claim 1,
the front composite filter element comprises a polypropylene fiber PP and a carbon rod composite filter element.
7. The three-core reverse osmosis water purification system of claim 1,
the post-positioned filter element comprises an activated carbon filter element.
8. A three-core reverse osmosis water purifier comprising the three-core reverse osmosis water purification system according to any one of claims 1 to 7.
CN202020382835.9U 2020-03-23 2020-03-23 Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier Active CN211999117U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202020382835.9U CN211999117U (en) 2020-03-23 2020-03-23 Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202020382835.9U CN211999117U (en) 2020-03-23 2020-03-23 Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier

Publications (1)

Publication Number Publication Date
CN211999117U true CN211999117U (en) 2020-11-24

Family

ID=73430679

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202020382835.9U Active CN211999117U (en) 2020-03-23 2020-03-23 Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier

Country Status (1)

Country Link
CN (1) CN211999117U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113880274A (en) * 2021-09-08 2022-01-04 广东纯米电器科技有限公司 Water purifier and control method and device thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113880274A (en) * 2021-09-08 2022-01-04 广东纯米电器科技有限公司 Water purifier and control method and device thereof

Similar Documents

Publication Publication Date Title
US20190070559A1 (en) Household water purification system
CN203112610U (en) reverse osmosis water purifier
WO2018036753A1 (en) Reverse osmosis water purifier
CN203144194U (en) Water purifier
CN108975540B (en) Water purification system and water purifier
CN202717665U (en) Fully-automatic multifunctional purified water dispenser without wastewater
CN107459105A (en) Big flux, low waste water reverse osmosis water purifier and its process for purifying water with dual pump apparatus
CN204310888U (en) A kind of reverse osmosis water purification machine with under meter
CN111036081A (en) Reverse osmosis water purifier with water bag type double-isolation water storage tank
CN108975543B (en) Water purification system and water purifier
CN211999117U (en) Three-core reverse osmosis water purification system and three-core reverse osmosis water purifier
CN212640101U (en) Double-core reverse osmosis water purification system and double-core reverse osmosis water purifier
CN211896173U (en) RO water purifier capable of limiting TDS (total dissolved solids) of first cup of water to be higher
CN105776621B (en) A kind of omnipotent pure machine of filtering
CN212640102U (en) Single-core reverse osmosis water purification system and single-core reverse osmosis water purifier
CN207062005U (en) A kind of household water filter for automatically adjusting waste water ratio
CN206843259U (en) A kind of automatic reverse flushing water purifier
CN211999115U (en) Three-core water purification system and three-core water purifier
CN214611834U (en) Water purifier
CN211999114U (en) Double-core water purification system and double-core water purifier
CN212142145U (en) Reverse osmosis water purifier with water bag type double-isolation water storage tank
CN210117291U (en) Large flux water purifier
CN211521825U (en) Water purifier
CN108975542B (en) Water purification system and water purifier
CN210286987U (en) Ultra-filtration water purifying device capable of automatically backwashing

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant
CP03 Change of name, title or address
CP03 Change of name, title or address

Address after: Room 01-04, 1st floor, No.2 Lane 60, Naxian Road, Pudong New Area pilot Free Trade Zone, Shanghai 201203

Patentee after: Chunmi Technology (Shanghai) Co.,Ltd.

Address before: Room 01-04, 1st floor, Lane 60, Naxian Road, Pudong New Area, Shanghai, 201203

Patentee before: SHANGHAI CHUNMI ELECTRONICS TECHNOLOGY Co.,Ltd.