CN112321057A - Preparation facilities of micro molecule oxygen-enriched water - Google Patents

Abstract

The invention provides a preparation device of micro-molecular oxygen-enriched water, which is a circulating device formed by sequentially connecting a water containing unit, a valve, a power unit, a softening unit, a filtering unit, a water treatment unit and a water outlet system through pipelines; the water treatment unit is provided with the oxygen supply unit, the technical scheme provided by the invention effectively combines the preparation processes of the micro-molecular water and the oxygen-enriched water together, the preparation efficiency is greatly improved, and the water treatment unit has the advantages of small floor area, simple operation method and low cost.

Description

Preparation facilities of micro molecule oxygen-enriched water

Technical Field

The invention relates to a water treatment device, in particular to a preparation device of micromolecule oxygen-enriched water.

Background

KDF is high-purity copper-zinc alloy particles, can remove chlorine, heavy metal ions and compounds in water, and can inhibit breeding of bacteria, algae and the like. However, when the KDF is used for water treatment, the content of zinc in water exceeds the standard, and secondary pollution is caused to water; and the KDF cost is extremely high. In the existing oxygen-enriched water process, the human body is easily damaged due to poor control during multi-stage ultraviolet sterilization and ozone sterilization, and the stability of the content of dissolved oxygen in water cannot be ensured. In the prior art, the preparation process of the small molecular group water and the oxygen-enriched water is a single-time flow type, and has the disadvantages of complicated treatment links, high cost and easy water pollution.

Therefore, a preparation device of the small molecular oxygen-enriched water with simple process and stable dissolved oxygen content is needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a preparation device of small molecular oxygen-enriched water.

The technical scheme provided by the invention is as follows:

a preparation device of micromolecule oxygen-enriched water is a circulating device formed by sequentially connecting a water containing unit, a valve, a power unit, a softening unit, a filtering unit, a water treatment unit and a water outlet system through pipelines; the water treatment unit is provided with an oxygen supply subunit.

Further, the power unit comprises a pump provided with hydraulic monitoring means.

Furthermore, the softening unit is formed by sequentially arranging a cathode, a concentration chamber, a desalting chamber and an anode, the concentration chamber comprises cation exchange membranes and anion exchange membranes which are alternately arranged, and the desalting chamber is provided with an ion exchange resin column.

Furthermore, the average particle size of the ion exchange resin is 120-300 mu m, and the uniformity coefficient is less than or equal to 1.1.

Further, the ion exchange resin comprises a resin with a drying mass ratio of 6-9: 4 to 1 of an anion exchange resin and a cation exchange resin.

Further, the water treatment unit comprises a gas-water mixing equalizer, a centrifugal pump and a micromolecular water preparation device which are connected in sequence; and the water inlet end of the gas-water mixing equalizer is connected with the circulating pipeline.

Furthermore, the small molecule water preparation subunit comprises a cover body, the cover body is provided with an opening which is respectively connected with the oxygen supply subunit and the centrifugal pump, and two magnets capable of forming a small molecule water magnetization channel are arranged on two sides of the opening.

Furthermore, the oxygen supply subunit is positioned below the water treatment unit, and an outlet of the oxygen supply subunit is provided with a reverse impact bubble releaser.

Furthermore, the water outlet system is provided with radial and axial water outlet holes which are uniformly distributed. Compared with the closest prior art, the technical scheme provided by the invention has the following beneficial effects:

(1) the technical scheme provided by the invention comprises a water containing unit, a valve, a power unit, a softening unit, a filtering unit, a water treatment unit and an oxygen supply unit, effectively combines the preparation processes of small molecular group water and oxygen-enriched water, makes up for the preparation unicity in the prior art, greatly simplifies the process flow, improves the application efficiency of each unit, reduces the occupied area, has no environmental limitation condition, has no harm of radiation, pollution and the like, and has strong applicability and low production investment cost.

(2) According to the technical scheme provided by the invention, water is uniformly discharged from the water taking and discharging system through the pipeline pump, infinite circulation treatment of the water body and a circulation form of an inverted drop type space three-dimensional net structure for discharging water from the whole surface at multiple angles by one point are realized, the self capacity of the water body is fully excited, the molecular state and the dissolved oxygen content are stabilized, the problems of complexity and high cost of a single-time flowing process in the prior art are effectively solved, the stability of a small molecular group structure is greatly improved, and the stabilization time of high-concentration dissolved oxygen is prolonged.

(3) The technical scheme provided by the invention accurately controls technical parameters, effectively ensures the qualification rate of the micromolecule oxygen-enriched water, and is suitable for assembly line operation.

(4) According to the technical scheme provided by the invention, the hardness of water is effectively reduced through the softening unit, the problem of pipeline blockage is prevented, and the micromolecule oxygen-enriched water which is more suitable for drinking is prepared.

Drawings

FIG. 1 is a flow chart of a preparation process of small molecular oxygen-enriched water provided by the invention;

FIG. 2 is a cross-sectional view of a closed circular water outlet system for small molecule oxygen-enriched water provided by the present invention;

FIG. 3 is a cross-sectional view of a closed rectangular water outlet system for small molecule oxygen-enriched water provided by the present invention;

FIG. 4 is a cross-sectional view of a cross-shaped water outlet system of the small molecule oxygen-enriched water provided by the present invention;

FIG. 5 is a sectional view of a water outlet system formed by N parallel small-molecule oxygen-enriched water provided by the invention;

FIG. 6 is a schematic diagram of a small molecule water preparation subunit of the small molecule oxygen-enriched water provided by the present invention;

wherein, 1 is water; 2, a water containing unit; 3, a valve; 4 a power unit; 5 a filtering unit; 6 a water treatment unit; 7 oxygen subunit; 8, an oxygen valve; 9 a pipeline; 10, a water outlet system; 11 radial water outlet holes; 12 axial water outlet holes; 13 a softening unit; a cover body; b, opening; c a first magnet; d a second magnet; e magnetizing the channel; f magnetic shoes.

Detailed Description

The technical solutions provided by the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the present invention, and not all of it.

The production process of the small molecular group water mainly comprises the following steps: filtering large particle impurities from natural water; secondly, the treated water passes through a KDF (potassium dihydrogen phosphate) particle; thirdly, filtering the water through an ultrafiltration membrane filter and active carbon; fourthly, the water is sent into a micro cluster water generator, and the micro cluster water is obtained after disinfection and sterilization.

The production process of the oxygen-enriched water mainly comprises the following steps: firstly, removing impurities, adsorbing and filtering; ② sterilizing by low-pressure ultraviolet; thirdly, precise filtering; fourthly, medium-pressure ultraviolet sterilization; cooling and oxygenating; sixthly, sterilizing by ozone; filtering with titanium rod.

KDF can remove chlorine, heavy metal ions and compounds in water, and inhibit bacteria, algae and the like from breeding. However, when the KDF is used for water treatment, the content of zinc in water exceeds the standard, secondary pollution is caused to water, and meanwhile, the KDF is extremely high in cost. In the existing oxygen-enriched water process, the human body is easily damaged due to poor control during multi-stage ultraviolet sterilization and ozone sterilization, and the stability of the content of dissolved oxygen in water cannot be ensured. The prior art processes of small cluster water and oxygen-enriched water have the following common problems: (1) the treatment link is complicated and the process is complex; (2) the adopted filters mostly need to be cleaned or backwashed regularly, certain time and labor are consumed, and water pollution is easily caused when the equipment is not managed properly; (3) the equipment has a certain volume, and an operation space needs to be reserved during installation, so that the occupied area is large; (4) in the single-flow process, water only stays once in each link, and discharged water is filled; if the effluent does not reach the standard, the process flow needs to be independently repeated, and the time and the investment cost are consumed.

In order to solve the problems in the prior art, the invention provides a preparation device combining the characteristics of small molecular group water and oxygen-enriched water, which has the advantages of simple use process, high treatment efficiency, short retention time, low probability of potential pollution hazard, reciprocating circulation type process, stable small molecular group structure and dissolved oxygen content, small occupied area, strong applicability, low investment cost and high product qualification rate, effectively reduces the hardness of water, prevents the problem of pipeline blockage, and prepares the small molecular oxygen-enriched water more suitable for drinking.

The device for preparing the small molecular oxygen-enriched water is shown in figure 1 and comprises: the water treatment system comprises a water containing unit 2, a valve 3, a power unit 4, a softening unit 13, a filtering unit 5, a water treatment unit 6 and a water outlet system 10; the water treatment unit 6 is provided with an oxygen supply subunit 7 and an oxygen valve 8. The power unit 4 comprises a pipeline pump and a hydraulic monitoring system, the water outlet end of the water containing unit 2 is connected with a pipeline 9, the water inlet end is provided with a water outlet system 10 of the pipeline 9, and the water level of the natural water 1 is 100.1 meters higher than that of the water outlet system. The softening unit 13 is composed of a cathode, a concentration chamber, a desalting chamber and an anode which are sequentially arranged, the concentration chamber comprises cation exchange membranes and anion exchange membranes which are alternately arranged, and the desalting chamber is provided with an ion exchange resin column. The ion exchange resin comprises the following components in a dry mass ratio of 6-9: 4 to 1 of an anion exchange resin and a cation exchange resin. The average particle size of the ion exchange resin is 120-300 mu m, and the uniformity coefficient is less than or equal to 1.1. The water treatment unit 6 comprises a gas-water mixing equalizer, a centrifugal pump and a micromolecular water preparation device which are connected in sequence; the water inlet end of the gas-water mixing equalizer is connected with a pipeline 9. The small molecule water preparation subunit comprises a cover body a, wherein the cover body a is provided with an opening b which is respectively connected with the oxygen supply subunit 7 and the centrifugal pump, the two sides of the opening b are provided with a first magnet c and a second magnet d which can form a small molecule water magnetization channel e between the first magnet c and the second magnet d, and the magnets c and d are provided with magnetic shoes f. The oxygen supply subunit 7 is positioned below the water treatment unit 6, and an outlet of the oxygen supply subunit is provided with a reverse impact bubble releaser.

Flourishing water unit 2 bottom installation pipeline 9, the connected mode includes: fixedly welding, bonding or screwing to ensure that the water containing unit 2 is intact and no leakage exists at the joint; 3 optional butterfly valves, gate valve, ball valve of valve, 3 pipe diameters of valve should be unanimous with 10 specification models of water outlet system, and the connected mode includes: welding, bonding or threading; the flow and the lift of the pipeline pump 4 are calculated and determined according to the volume of the water containing unit 2 and the environmental condition, and the connection mode comprises the following steps: welding, bonding or threading; the filter unit 5 selects a filter core which has high precision and is convenient to replace and clean, so that the filter effect is ensured, and meanwhile, the system equipment can be cleaned without stopping during operation, and the production progress is not influenced; the oxygen supply subunit 7 selects an oxygen storage container such as an oxygen making device or a food-grade high-purity oxygen bottle, and the oxygen valve 8 is connected with the water treatment unit 6 and the oxygen supply subunit 7 through a copper pipe or a high-pressure oxygen pipe. The pipeline 9 is made of an anti-corrosion steel pipe or a food-grade pipeline, and the pipeline connection mode comprises welding, bonding or screw threads. The cross-sectional shape of the water outlet system 10 includes a closed circle as shown in fig. 2, a closed rectangle of fig. 3, a cross shape of fig. 4, or N parallel distribution shapes of fig. 5.

Example 1

(1) Preparation for implementation

According to the requirements of the use, the consumption and the like of the small-molecule oxygen-enriched water, technical parameters, equipment type selection and water outlet hole schemes are designed, the detail of equipment materials is determined, purchase lists, occupied areas, power consumption and the like are listed, and technical schemes such as process layout, equipment installation, equipment debugging, test run and the like are formulated.

(2) Conditions for carrying out

The indoor environment meeting the floor area requirement is selected, ventilation, drying, oil-free, smokeless, dust-free, nontoxic, corrosive gas-free and naked fire-free are required indoors, the indoor temperature is controlled to be 5-35 ℃, and the relative humidity is less than 75%.

(3) Process flow

Adding water 1 (municipal tap water or natural mineral water or drinking purified water) into a water containing unit 2, sequentially feeding the natural water 1 into a softening unit 13 and a filtering unit 5 from the bottom of the water containing unit 2 by a pipeline pump, cutting a natural water molecule cluster structure into a small molecule cluster structure, simultaneously feeding oxygen of an oxygen supply subunit 7 into a water treatment unit 6, wherein high-purity oxygen is extremely easy to dissolve in small molecule water due to increased small molecule water molecule cluster gaps and enhanced surface adhesion, the water 1 undergoes a high-efficiency sterilization process when passing through the water treatment unit 6 to form small molecule oxygen-enriched water, the small molecule oxygen-enriched water uniformly discharges the small molecule oxygen-enriched water into the water containing unit 2 through a radial water outlet hole 11 and an axial water outlet hole 12 on a water outlet system 10, a 'inverted water drop type spatial three-dimensional net structure' is formed in the water containing unit 2, then enters the next cycle, and after the reciprocating cycle, the content of dissolved oxygen in the small molecular oxygen-enriched water is higher than 50mg/L, and the small molecular oxygen-enriched water can be stably stored for a long time.

(4) The implementation steps are as follows:

firstly, debugging equipment is installed according to implementation preparation and implementation conditions, and a power supply is checked to ensure that the equipment can normally run.

Checking system valves to ensure that all valves are closed and have no leakage;

starting the oxygen generating device, and running high-purity oxygen to meet the technical parameter requirement; if the oxygen storage container is selected to replace the oxygen generator, whether the oxygen quantity meets the requirement or not is checked, and whether a flow meter, a pressure gauge, a pressure reducing valve and the like can be normally used or not is checked;

pouring water into the water containing unit 2, wherein the water level is 0.1m higher than the top surface of the water outlet pipe;

and fifthly, opening a valve 3 at the bottom of the water containing unit 2 before the pipeline pump, and starting the pipeline pump.

Starting small molecule high efficiency dissolved oxygen equipment;

seventhly, opening an oxygen valve 8 of the oxygen supply subunit 7, and starting circulation of the natural water;

and stopping the device when the content of dissolved oxygen in the micromolecule oxygen-enriched water is higher than 50mg/L according to the monitored technical parameters.

Although the present invention has been described in detail with reference to the above embodiments, those skilled in the art can make modifications and equivalents to the embodiments of the present invention without departing from the spirit and scope of the present invention, which is set forth in the claims of the present application.

Claims (9)

1. The preparation device of the micromolecule oxygen-enriched water is characterized in that the device is a circulating device formed by sequentially connecting a water containing unit, a valve, a power unit, a softening unit, a filtering unit, a water treatment unit and a water outlet system through pipelines; the water treatment unit is provided with an oxygen supply subunit.

2. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 1, wherein the power unit comprises a pump provided with a hydraulic monitoring device.

3. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 1, wherein the softening unit is composed of a cathode, a concentration chamber, a desalting chamber and an anode which are arranged in sequence, the concentration chamber comprises cation exchange membranes and anion exchange membranes which are arranged alternately, and the desalting chamber is provided with an ion exchange resin column.

4. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 3, wherein the average particle diameter of the ion exchange resin is 120-300 μm, and the uniformity coefficient is less than or equal to 1.1.

5. The preparation device of the small-molecule oxygen-enriched water as claimed in claim 3, wherein the ion exchange resin comprises the following components in a dry mass ratio of 6-9: 4 to 1 of an anion exchange resin and a cation exchange resin.

6. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 1, wherein the water treatment unit comprises a gas-water mixing equalizer, a centrifugal pump and a small molecule water preparation device which are connected in sequence; and the water inlet end of the gas-water mixing equalizer is connected with the circulating pipeline.

7. The apparatus for preparing oxygen-enriched water as claimed in claim 6, wherein said small molecule water preparing subunit comprises a cover body, said cover body is provided with an opening connected to said oxygen supplying subunit and said centrifugal pump, respectively, and two magnets are provided on both sides of said opening to form a magnetized passage of small molecule water therebetween.

8. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 1, wherein the oxygen supply subunit is located below the water treatment unit, and an anti-impact bubble releaser is arranged at the outlet of the oxygen supply subunit.

9. The apparatus for preparing oxygen-enriched water with small molecules as claimed in claim 1, wherein the outlet system is provided with uniformly distributed radial and axial outlet holes.

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