CN114349203A

CN114349203A - Micro-nano rotational flow direct water dispenser

Info

Publication number: CN114349203A
Application number: CN202111460388.XA
Authority: CN
Inventors: 余建新; 龙忠剑; 陈加成; 李晓峰; 张群
Original assignee: Kangwo Shengxin Guangzhou Technology Co ltd
Current assignee: Kangwo Shengxin Guangzhou Technology Co ltd
Priority date: 2021-12-02
Filing date: 2021-12-02
Publication date: 2022-04-15

Abstract

The invention discloses a micro-nano rotational flow direct water dispenser which is provided with a main rack and is characterized by comprising a main water inlet and a main water outlet; the waterfall tank is used for carrying out activation treatment on the outside; the micro-nano filtering mechanism is used for sterilizing the water body by using micro-nano bubbles; the ultrafiltration tank is used for filtering the particle impurities by using an ultrafiltration core; a reverse osmosis filtration tank for filtering heavy metal particles through a reverse osmosis membrane; the main water inlet, the waterfall tank, the micro-nano filtering mechanism, the ultrafiltration tank, the reverse osmosis filtering tank and the main water outlet are sequentially connected through pipelines. According to the invention, water is connected into the device, oxygen enrichment is carried out on the water body through the waterfall tank, bacteria are killed through micro-nano bubbles generated in the micro-nano filtering mechanism, particles are filtered through an ultrafiltration structure in the ultrafiltration tank, heavy metal particles are filtered through the reverse osmosis filtering tank, and finally, drinking direct water which can be drunk by self flows out, so that a large amount of drinking water can be produced in a short time.

Description

Micro-nano rotational flow direct water dispenser

Technical Field

The invention relates to the technical field of drinking water treatment, in particular to a micro-nano rotational flow direct drinking water machine.

Background

With the continuous improvement of living standard, the user also puts forward higher demand to drinking water quality, and in daily life, people often use for drinking through boiling the running water, but in personnel intensive place, then can consume a large amount of energy through the emergence of boiling, and inefficiency moreover.

In industry, the nano bubbles can save energy consumption when the pipeline is used for pumping water. The same nano bubbles are distributed on the inner wall of the water pipe, so that the friction during water pumping can be reduced, the energy and the cost are saved, the micro-nano bubbles are electrically charged, impurities can be adsorbed, a large amount of energy can be generated during explosion, harmful substances cannot be generated when the micro-nano bubbles are in contact with a water body, and the technology has a great prospect in the aspect of water body purification.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the micro-nano rotational flow direct drinking machine which can efficiently generate a large amount of drinking water in a short time.

A micro-nano rotational flow direct drinking machine is provided with a main rack and comprises a main water inlet and a main water outlet; the waterfall tank is used for carrying out activation treatment on the outside; the micro-nano filtering mechanism is used for sterilizing the water body by using micro-nano bubbles; the ultrafiltration tank is used for filtering the particle impurities by using an ultrafiltration core; a reverse osmosis filtration tank for filtering heavy metal particles through a reverse osmosis membrane; the main water inlet, the waterfall tank, the micro-nano filtering mechanism, the ultrafiltration tank, the reverse osmosis filtering tank and the main water outlet are sequentially connected through pipelines.

Preferably, the waterfall tank is provided with a first water inlet and a first water outlet, the first water inlet is arranged at the upper end of the waterfall tank, the first water outlet is arranged below the waterfall tank, and the first water inlet is connected with the main water inlet through a pipeline.

Adopt above-mentioned mechanism, rivers flow in the below of waterfall jar from the upper end of main water inlet through first water inlet, and the in-process that the middle rivers are downward strikeed has increased rivers along with the area of contact with the air to reach the activation water, let the purpose of water eutrophication, the oxygen boosting water is discharged through first delivery port after the short time of waterfall jar bottom stops, thereby realizes the steady outflow of rivers.

Preferably, the number of the waterfall tanks is two, and the waterfall tanks are symmetrically arranged on two sides of the micro-nano filtering mechanism. Micro-nano filter mechanism including filtering a jar main part, second water inlet and second delivery port, the second water inlet be provided with two, the symmetry sets up in the both sides of filtering a jar main part, is connected with first delivery port pipeline, the second delivery port set up the upper portion of filtering a jar main part.

Adopt above-mentioned mechanism, through setting up two waterfall jars, both sides waterfall jar is simultaneously with rivers from first delivery port row to second delivery port department, gets into from the bottom and crosses the filter tank main part, then carries out micro-nano filtration sterilization to the water, then from crossing the discharge of filter tank main part upper portion.

Preferably, the micro-nano filtering mechanism comprises a micro-nano bubble generator, and the micro-nano bubble generator is connected with the filter tank main body through a pipeline.

By adopting the mechanism, the micro-nano bubble generator generates micro-nano bubbles, wherein the micro-nano bubbles refer to bubbles with the diameter of tens of microns to hundreds of nanometers when the bubbles are generated, are between the micro-bubbles and the nano-bubbles, have surface charges, can adsorb organic matters in water, and can play a role in inhibiting bacteria and the like; some bubbles burst instantly to generate high heat (heat effect), and ultrasonic wave and negative ion are emitted in water, so that good sterilization effect is achieved and no harmful gas is generated in the sterilization process.

Preferably, the ultrafiltration tank is provided with a third water outlet and a third water inlet, the third water outlet is arranged at the top of the ultrafiltration tank, the third water outlet is arranged at the bottom of the ultrafiltration tank, and the third water inlet is connected with a second water outlet pipeline.

By adopting the mechanism, the water body is introduced into the ultrafiltration tank through the third water inlet to carry out ultrafiltration on the water body, the ultrafiltration tank is internally provided with the preposed backflushing ultrafiltration, the preposed energy ball, the cationic resin, the postposition activated carbon and the postposition ultrafiltration membrane, the water body is further filtered, and the particulate matters in the water body are taken out.

Preferably, the number of the ultrafiltration tanks is at least two.

By adopting the mechanism, the efficiency of filtration can be improved by arranging a plurality of ultrafiltration tanks.

Preferably, the reverse osmosis filter tank is provided with a fourth water inlet and a fourth water outlet, the fourth water inlet is arranged at the bottom of the reverse osmosis filter tank, the fourth water outlet is arranged at the top of the reverse osmosis filter tank, and the fourth water outlet is connected with the main water outlet pipeline.

By adopting the above mechanism, the water body enters the reverse osmosis filter tank through the fourth water inlet, and the solute in the solution is separated from the solvent by virtue of the selective interception effect of the semipermeable membrane which only allows water to permeate but not other substances to permeate, so that the trace elements are separated from the water body, and the direct drinking water with high purity is achieved.

Preferably, the reverse osmosis filter tank is also provided with a booster pump, and the booster pump is arranged at the front end of the fourth water inlet.

By adopting the mechanism, the water body can pass through the reverse osmosis filter tank more easily by applying pressure to the water body.

Has the advantages that: according to the invention, water is connected into the device, oxygen enrichment is carried out on the water body through the waterfall tank, bacteria are killed through micro-nano bubbles generated in the micro-nano filtering mechanism, particles are filtered through an ultrafiltration structure in the ultrafiltration tank, heavy metal particles are filtered through the reverse osmosis filtering tank, and finally, drinking direct water which can be drunk by self flows out, so that a large amount of drinking water can be produced in a short time.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is an overall schematic diagram of the micro-nano rotational flow direct drinking machine.

In the drawings: 1. a main water inlet; 2. a main water outlet; 3. a waterfall tank; 4. a micro-nano filtering mechanism; 40. a canister body; 41. a micro-nano bubble generator; 5. an ultrafiltration tank; 6. a reverse osmosis filtration tank; 7. a booster pump.

Detailed Description

A micro-nano rotational flow direct drinking machine is provided with a main rack and comprises a main water inlet 1 and a main water outlet 2; a waterfall tank 3 for performing an activation process for the outside; the micro-nano filtering 4 mechanism is used for sterilizing the water body by micro-nano bubbles; an ultrafiltration tank 6 for filtering the particle impurities by using an ultrafiltration core; a reverse osmosis filtration tank 7 for filtering the heavy metal particles by a reverse osmosis membrane; the main water inlet 1, the waterfall tank 3, the micro-nano filtering 4 mechanism, the ultrafiltration tank 6, the reverse osmosis filtering tank 7 and the main water outlet 2 are sequentially connected through pipelines. The water fall tank 3 is provided with a first water inlet and a first water outlet, the first water inlet is arranged at the upper end of the water fall tank 3, the first water outlet is arranged below the water fall tank 3, and the first water inlet is in pipeline connection with the main water inlet 1. The number of the waterfall tanks 3 is two, and the waterfall tanks are symmetrically arranged on two sides of the micro-nano filtering mechanism 4. Micro-nano filter 4 mechanism including filtering jar main part 41, second water inlet and second delivery port, the second water inlet be provided with two, the symmetry sets up in the both sides of filtering jar main part 41, is connected with first delivery port pipeline, the second delivery port set up the upper portion of filtering jar main part 41. The micro-nano filtration 4 mechanism include micro-nano bubble generator 5, micro-nano bubble generator 5 and filter tank main part 41 carry out the pipe connection. The ultrafiltration tank 6 is provided with a third water outlet and a third water inlet, the third water outlet is arranged at the top of the ultrafiltration tank 6, the third water outlet is arranged at the bottom of the ultrafiltration tank 6, and the third water inlet is connected with a second water outlet pipeline. The number of the ultrafiltration tanks 6 is at least two. The reverse osmosis filter tank 7 be provided with fourth water inlet and fourth delivery port, the fourth water inlet set up in the bottom of reverse osmosis filter tank 7, the fourth delivery port set up at the top of reverse osmosis filter tank 7, fourth delivery port and 2 pipe connections of main delivery port. The reverse osmosis filter tank 7 is also provided with a booster pump, and the booster pump is arranged at the front end of the fourth water inlet.

The working principle is as follows: according to the invention, water is connected into the device, oxygen enrichment is carried out on the water body through the waterfall tank 3, micro-nano bubbles generated in the micro-nano filtering mechanism 4 are used for killing bacteria, particles are filtered through an ultrafiltration structure in the ultrafiltration tank 6, heavy metal particles are filtered through the reverse osmosis filtering tank 7, and finally, drinking direct water which can be drunk by self flows out, so that a large amount of drinking water can be produced in a short time.

The rivers flow into the below of waterfall jar 3 from main water inlet 1 through first water inlet, from the upper end of waterfall jar 3, and the in-process of middle rivers downward impact has increased rivers along with the area of contact with the air to reach the activation water, let the purpose of water eutrophication, the oxygen boosting water is discharged through first delivery port after 3 bottom short-term stops of waterfall jar, thereby realizes the steady outflow of rivers. Through setting up two waterfall jars 3, both sides waterfall jar 3 is simultaneously with rivers from first delivery port row to second delivery port department, gets into from the bottom and filters jar main part 41, then carries out micro-nano filtration 4 to the water and disinfects, then discharges from filtering jar main part 41 upper portion. The micro-nano bubble generator 5 generates micro-nano bubbles, wherein the micro-nano bubbles refer to bubbles with diameters ranging from tens of micrometers to hundreds of nanometers when the bubbles are generated, are between the micro bubbles and the nano bubbles, have surface charges, can adsorb organic matters in water, and can play a role in bacteriostasis and the like; some bubbles burst instantly to generate high heat (heat effect), and ultrasonic wave and negative ion are emitted in water, so that good sterilization effect is achieved and no harmful gas is generated in the sterilization process. And (3) introducing the water body into the ultrafiltration tank 6 through the third water inlet to carry out ultrafiltration on the water body, wherein the ultrafiltration tank 6 is internally provided with a preposed backflushing ultrafiltration, a preposed energy ball, cationic resin, postposition activated carbon and a postposition ultrafiltration membrane, further filtering the water body, and taking out particulate matters in the water body. By providing a plurality of ultrafiltration tanks 6, the efficiency of filtration can be improved. The water body enters the reverse osmosis filter tank 7 through the fourth water inlet, and solute in the solution is separated from the solvent by virtue of the selective interception effect of the semipermeable membrane which only allows water to permeate but not other substances, so that the trace elements are separated from the water body, and the direct drinking water with high purity is achieved. By applying pressure to the water, the water can more easily pass through the reverse osmosis filter tank 7.

It will be understood that the above description is only illustrative of certain embodiments of the present invention, and is not to be construed as limiting the scope of the invention, which is defined by the appended claims. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A micro-nano rotational flow direct water dispenser is provided with a main rack and is characterized by comprising a main water inlet (1) and a main water outlet (2);

a waterfall tank (3) for performing an activation treatment on the outside;

the micro-nano filtering (4) mechanism is used for sterilizing the water body by using micro-nano bubbles;

the ultrafiltration tank (6) is used for filtering the particle impurities by an ultrafiltration core;

a reverse osmosis filtration tank (7) for filtering heavy metal particles by a reverse osmosis membrane;

the water purifier is characterized in that the main water inlet (1), the waterfall tank (3), the micro-nano filtering (4) mechanism, the ultrafiltration tank (6), the reverse osmosis filtering tank (7) and the main water outlet (2) are sequentially connected through pipelines.

2. The micro-nano rotational flow direct drinking machine according to claim 1, wherein the waterfall tank (3) is provided with a first water inlet and a first water outlet, the first water inlet is arranged at the upper end of the waterfall tank (3), the first water outlet is arranged below the waterfall tank (3), and the first water inlet is connected with the main water inlet (1) through a pipeline.

3. The micro-nano rotational flow direct drinking machine as claimed in claim 1, wherein the number of the waterfall tanks (3) is two, and the waterfall tanks are symmetrically arranged at two sides of the micro-nano filtering (4) mechanism.

4. The micro-nano rotational flow direct drinking machine according to claim 1, wherein the micro-nano filtering (4) mechanism comprises a filtering tank main body (41), two second water inlets and two second water outlets, the two second water inlets are symmetrically arranged at two sides of the filtering tank main body (41) and connected with the first water outlet pipeline, and the second water outlets are arranged at the upper part of the filtering tank main body (41).

5. The micro-nano rotational flow direct drinking machine as claimed in claim 1, wherein the micro-nano filtering (4) mechanism comprises a micro-nano bubble generator (5), and the micro-nano bubble generator (5) is connected with the filter tank main body (41) through a pipeline.

6. The micro-nano rotational flow direct drinking machine according to claim 1, wherein the ultrafiltration tank (6) is provided with a third water outlet and a third water inlet, the third water outlet is arranged at the top of the ultrafiltration tank (6), the third water outlet is arranged at the bottom of the ultrafiltration tank (6), and the third water inlet is connected with a second water outlet pipeline.

7. The micro-nano rotational flow direct drinking machine according to claim 1, wherein the number of the ultrafiltration tanks (6) is at least two.

8. The micro-nano rotational flow direct drinking machine according to claim 1, wherein the reverse osmosis filter tank (7) is provided with a fourth water inlet and a fourth water outlet, the fourth water inlet is arranged at the bottom of the reverse osmosis filter tank (7), the fourth water outlet is arranged at the top of the reverse osmosis filter tank (7), and the fourth water outlet is connected with the main water outlet (2) through a pipeline.

9. The micro-nano rotational flow direct drinking machine as claimed in claim 1, wherein the reverse osmosis filter tank (7) is also provided with a pressure pump, and the pressure pump is arranged at the front end of the fourth water inlet.