CN209974380U - Preparation facilities of strong alkaline electrolysis ionized water of non-drinking - Google Patents

Abstract

The utility model relates to a preparation facilities of non-drinking strong basicity electrolysis ionized water, which comprises a housin, the casing is including the electrolytic vessel, anode plate, the negative plate that produce the reaction, only let the ion exchange membrane that monovalent cation passes through and be used for preventing the ultrasonic wave generating device of ion gathering, ion exchange membrane will the electrolytic vessel separates into the anode chamber that is used for ionizing electrolyte solution and the cathode chamber that is used for generating basicity electrolysis ionized water, the anode chamber with the anode plate is connected, the cathode chamber with the negative plate is connected, the anode plate with the negative plate forms the electricity and connects, ultrasonic wave generating device fixes on the electrolytic vessel. The utility model discloses a preparation facilities of strong alkaline electrolysis ionized water is not drunk can promote the preparation speed of alkaline electrolysis ionized water by a wide margin under the unchangeable condition of plate electrode, ion exchange membrane and electrolytic vessel size, reaches reduce cost's purpose.

Description

Preparation facilities of strong alkaline electrolysis ionized water of non-drinking

Technical Field

The utility model relates to a preparation facilities of strong alkaline electrolysis ionized water is drunk to non-, especially a preparation facilities of strong alkaline electrolysis ionized water is drunk to non-that relates to the electrolysis water field.

Background

The non-drinking strong-alkaline electrolyzed ionic water has the pH value of more than 12.5, is high-activity, chemical corrosion-free and skin irritation-free alkaline water different from strong alkaline solution, has the characteristics of environmental protection, zero emission, strong oil stain removal, sterilization, deodorization, corrosion resistance, oxidation resistance, no bubbles, easy cleaning and the like, and can be more and more widely applied to the fields and industries needing cleaning or disinfection, such as food processing, catering, hotels, automobile manufacturing, pet hospitals, aquariums and the like under the current large environment with attention to environmental protection.

The current preparation method of non-drinking strong alkaline electrolyzed ionic water comprises the following steps: the electrolyte and the purified water are isolated by an ion exchange membrane in an electrolytic container, positive voltage is applied to one side of the electrolyte through a positive plate, negative voltage is applied to one side of the purified water through a negative plate, after the electrolyte is ionized, cations in the electrolyte enter the purified water through the ion exchange membrane, the purified water is ionized to generate hydroxyl anions, and the cations and the hydroxyl anions are combined to enable the neutral purified water to become alkaline. The PH value of the generated alkaline electrolytic ionized water is controlled by controlling the concentration of the electrolyte, the ionization voltage, the ionization time or the circulation speed of the purified water.

In real life, when alkaline electrolytic ionized water is used for cleaning operation, the using amount of the alkaline electrolytic ionized water is usually large, so that the preparation time for preparing the alkaline electrolytic ionized water is required to be short, or the water yield of the alkaline electrolytic ionized water is required to be large, however, the shorter time or the larger water yield requires a larger electrode plate, a larger ion exchange membrane and a larger electrolytic container, the electrode plate and the ion exchange membrane are the most expensive components in the whole device, the larger the whole size of the device is, the more complicated the manufacturing process is, the more difficult the pH value of the alkaline electrolytic ionized water is to be accurately controlled, the cost of the device can be nonlinearly and rapidly increased, the selling price of the device is rapidly increased, and the popularization and the application of the device are limited.

SUMMERY OF THE UTILITY MODEL

The utility model provides a preparation facilities of non-drinking strong alkaline electrolysis ionized water who provides for solve above-mentioned problem, which comprises a housin, the casing is including the electrolytic vessel, anode plate, the negative plate that produce the reaction, only let the ion exchange membrane that monovalent cation passes through and be used for preventing the ultrasonic wave generating device of ion gathering, ion exchange membrane will the electrolytic vessel separates into the anode chamber that is used for ionizing electrolyte solution and the cathode chamber that is used for generating alkaline electrolysis ionized water, the anode chamber with the anode plate is connected, the cathode chamber with the negative plate is connected, the anode plate with the negative plate forms the electricity and connects, ultrasonic wave generating device fixes on the electrolytic vessel.

Further, the electrolytic vessel further comprises an anode chamber water inlet, an anode chamber water outlet, a cathode chamber water inlet and a cathode chamber water outlet, wherein the anode chamber water inlet and the anode chamber water outlet are respectively communicated with the anode chamber, and the cathode chamber water inlet and the cathode chamber water outlet are respectively communicated with the cathode chamber.

Furthermore, the ultrasonic wave generating device comprises an ultrasonic frequency power supply and a transducer, wherein the ultrasonic frequency power supply is electrically connected with the transducer, and the transducer is fixed on the electrolytic container.

Further, the housing is an insulator.

Further, the ion exchange membrane may be a homogeneous membrane or a heterogeneous membrane.

The beneficial effects of the utility model reside in that: the utility model discloses a preparation facilities of non-drinking strong alkaline electrolysis ionized water adds ultrasonic wave generating device in the electrolytic vessel of storage tank mode and continuous water outlet mode alkaline electrolysis ionized water preparation facilities, on one hand, electrolyte can be fully mixed under the effect of ultrasonic wave, effectively prevents the gathering of ionized anion around the anode plate, can accelerate ionization speed greatly; on the other hand, under the action of ultrasonic waves, the attachment of anions and cations on the anode chamber, the cathode chamber and the two sides of the ion exchange membrane can be effectively reduced, the cation passing speed can be greatly increased, the ionization speed is improved, and meanwhile, the ultrasonic wave generating device is mature in technology, low in price and convenient to install. Therefore, the utility model discloses a preparation facilities of non-drinking strong alkaline electrolysis ionized water can promote the preparation speed of alkaline electrolysis ionized water by a wide margin under the unchangeable condition of plate electrode, ion exchange membrane and electrolytic vessel size, reaches reduce cost's purpose.

Drawings

FIG. 1 is a schematic structural diagram of a device for preparing non-drinking strong-alkaline electrolyzed ionized water provided by the utility model;

fig. 2 is a schematic structural diagram of an ultrasonic wave generating apparatus provided by the present invention;

FIG. 3 is another schematic structural diagram of a device for preparing non-drinking strongly alkaline electrolyzed ionized water provided by the present invention;

fig. 4 is a flow chart of a preparation method of the non-drinking strong-alkaline electrolyzed ionic water preparation device provided by the utility model.

Detailed Description

The invention will be further elucidated with reference to the accompanying drawings:

as shown in fig. 1 and 2, a preparation apparatus of non-drinking strongly alkaline electrolyzed ionic water comprises a housing 200, the housing 200 comprises an electrolytic vessel 100 for generating reaction, an anode plate 10, a cathode plate 50, an ion exchange membrane 30 for allowing only monovalent cations to pass through and an ultrasonic generation device 60 for preventing ion aggregation, the ion exchange membrane 30 divides the electrolytic vessel 100 into an anode chamber 20 for ionizing an electrolyte solution and a cathode chamber 40 for generating alkaline electrolyzed ionic water, the anode chamber 20 is connected with the anode plate 10, the cathode chamber 40 is connected with the cathode plate 50, the anode plate 10 is electrically connected with the cathode plate 50, and the ultrasonic generation device 60 is fixed on the electrolytic vessel 100.

The electrolytic vessel 100 further comprises an anode chamber water inlet 21, an anode chamber water outlet 22, a cathode chamber water inlet 41 and a cathode chamber water outlet 42, wherein the anode chamber water inlet 21 and the anode chamber water outlet 22 are respectively communicated with the anode chamber 20, and the cathode chamber water inlet 41 and the cathode chamber water outlet 42 are respectively communicated with the cathode chamber 40, so that the solution can conveniently flow in the cathode chamber 40 and the anode chamber 20.

The ultrasonic wave generating device 60 comprises an ultrasonic frequency power source 61 and a transducer 62, wherein the ultrasonic frequency power source 61 is electrically connected with the transducer 62, the transducer 62 is fixed on the electrolytic container 100, the transducer 62 converts ultrasonic frequency electric energy into mechanical vibration and radiates ultrasonic waves to the solution in the container through the wall of the electrolytic container 100, and ions attached to the cathode plate 50, the anode plate 10 and the ion exchange membrane 30 are dispersed in the solution through ultrasonic cavitation.

The shell 200 is an insulator to prevent the shell 200 from generating damage to operators due to electric leakage.

The ion exchange membrane 30 may be a homogeneous membrane or a heterogeneous membrane, the homogeneous membrane is a membrane made of high molecular materials such as styrene butadiene rubber, cellulose derivatives, polytetrafluoroethylene, polychlorotrifluoroethylene, polyvinylidene fluoride, polyacrylonitrile, etc., then monomers such as styrene, methyl methacrylate, etc. are introduced, and polymerized into high molecules in the membrane, and then required functional groups are introduced through chemical reaction; the heterogeneous membrane is formed by fully mixing ion exchange resin with the particle size of 200-400 meshes and common membrane-forming high polymer materials such as polyethylene, polyvinyl chloride, polyvinyl alcohol, fluororubber and the like.

As shown in fig. 4, the preparation method of the non-drinking strong alkaline electrolyzed ionic water preparation device comprises the following steps:

step 1, completely dissolving an electrolyte into purified water to prepare an electrolyte with a certain concentration, wherein the electrolyte can be organic or inorganic potassium salt or sodium salt;

step 2, leading the electrolyte prepared in the step 1 into an anode chamber from a water inlet of the anode chamber;

3, introducing purified water into the cathode chamber from a water inlet of the cathode chamber, wherein the purified water can be water filtered by a domestic water purifier or an industrial water purifier which is formed by a conventional PP cotton filter element, an activated carbon filter element, a reverse osmosis membrane and the like from tap water;

step 4, turning on a power supply, applying direct-current voltage between the anode plate and the cathode plate, and starting the ultrasonic generating device at the same time;

step 5, ionizing the electrolyte in the anode chamber to separate out metal cations, and ionizing the purified water in the cathode chamber to separate out hydroxyl anions;

and 6, under the action of an electric field formed by electrifying the anode plate and the cathode plate, metal cations ionized in the anode chamber penetrate through the ion exchange membrane to enter the cathode chamber and are combined with hydroxyl anions to generate alkaline electrolytic ionized water.

[ example 1]

Referring to fig. 1 and 4, in this embodiment, the water inlet and outlet of the apparatus for preparing non-potable strongly alkaline electrolyzed ionic water is continuous water outlet, the housing 200 further includes a water pump, the anode chamber water outlet 22, the water pump and the anode chamber water inlet 21 are sequentially communicated through a water pipe, and the method for preparing the apparatus for preparing non-potable strongly alkaline electrolyzed ionic water includes the following steps:

step 1, completely dissolving an electrolyte into purified water to prepare an electrolyte with a certain concentration, wherein the electrolyte can be organic or inorganic potassium salt or sodium salt;

step 2, leading the electrolyte prepared in the step 1 into an anode chamber 20 from an anode chamber water inlet 21, and starting a water pump to enable the electrolyte to circularly flow;

3, introducing purified water into the cathode chamber 40 from a cathode chamber water inlet 41, wherein the purified water can be water filtered by a domestic water purification device or an industrial water purification device which is formed by a conventional PP cotton filter element, an activated carbon filter element, a reverse osmosis membrane and the like from tap water;

step 4, turning on the power supply, applying direct current voltage between the anode plate 10 and the cathode plate 50, and starting the ultrasonic wave generating device 60;

step 5, the electrolyte is ionized in the anode chamber 20 to separate out metal cations, and the purified water is ionized in the cathode chamber 40 to separate out hydroxyl anions;

and 6, under the action of an electric field formed by electrifying the anode plate 10 and the cathode plate 50, the metal cations ionized in the anode chamber 20 penetrate through the ion exchange membrane 30 to enter the cathode chamber 40, and are combined with hydroxyl anions to generate alkaline electrolyzed ionized water.

The alkaline electrolytic ionized water can be obtained by opening the water outlet 42 of the cathode chamber, and in the embodiment, the ph value of the alkaline electrolytic ionized water can be controlled by controlling the concentration of the electrolyte solution and the water flow speed of the water outlet 42 of the cathode chamber, so that a certain amount of electrolyte needs to be added into the anode chamber 20 at regular time.

[ example 2]

Referring to fig. 3 and 4, in this embodiment, the water inlet and outlet method of the device for preparing non-drinking strongly alkaline electrolyzed ionic water is a storage tank type, and the preparation method of the device for preparing non-drinking strongly alkaline electrolyzed ionic water comprises the following steps:

step 1, completely dissolving an electrolyte into purified water to prepare an electrolyte with a certain concentration, wherein the electrolyte can be organic or inorganic potassium salt or sodium salt;

step 2, leading the electrolyte prepared in the step 1 into an anode chamber 20 from an anode chamber water inlet 21;

3, introducing purified water into the cathode chamber 40 from a cathode chamber water inlet 41, wherein the purified water can be water filtered by a domestic water purification device or an industrial water purification device which is formed by a conventional PP cotton filter element, an activated carbon filter element, a reverse osmosis membrane and the like from tap water;

step 4, turning on the power supply, applying direct current voltage between the anode plate 10 and the cathode plate 50, and starting the ultrasonic wave generating device 60;

step 5, the electrolyte is ionized in the anode chamber 20 to separate out metal cations, and the purified water is ionized in the cathode chamber 40 to separate out hydroxyl anions;

and 6, under the action of an electric field formed by electrifying the anode plate 10 and the cathode plate 50, the metal cations ionized in the anode chamber 20 penetrate through the ion exchange membrane 30 to enter the cathode chamber 40, and are combined with hydroxyl anions to generate alkaline electrolyzed ionized water.

The alkaline electrolytic ionized water can be obtained by opening the water outlet 42 of the cathode chamber, and in the embodiment, the ph value of the alkaline electrolytic ionized water can be controlled by controlling the concentration of the electrolyte solution and the ionization time, so that a certain amount of electrolyte needs to be added into the anode chamber 20 at regular time.

The utility model discloses a preparation facilities and preparation method of non-drinking strong alkaline electrolysis ionized water, add ultrasonic wave generating device in the electrolytic vessel of storage tank mode and continuous water outlet mode alkaline electrolysis ionized water preparation facilities, on one hand, electrolyte can be fully mixed under the effect of ultrasonic wave, has effectively prevented the gathering of ionized anion around the anode plate, can accelerate ionization speed greatly; on the other hand, under the action of ultrasonic waves, the attachment of anions and cations on the anode chamber, the cathode chamber and the two sides of the ion exchange membrane can be effectively reduced, the cation passing speed can be greatly increased, the ionization speed is improved, and meanwhile, the ultrasonic wave generating device is mature in technology, low in price and convenient to install. Therefore, the utility model discloses a preparation facilities and preparation method of non-drinking strong alkaline electrolysis ionized water can promote the preparation speed of alkaline electrolysis ionized water by a wide margin under the unchangeable condition of plate electrode, ion exchange membrane and electrolytic vessel size, reaches reduce cost's purpose.

The above-mentioned embodiments are merely preferred examples of the present invention, and do not limit the scope of the present invention, so all equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (5)

1. A preparation apparatus of non-drinking strongly alkaline electrolytic ionized water, comprising a case, characterized in that the case comprises an electrolytic vessel for generating a reaction, an anode plate, a cathode plate, an ion exchange membrane for passing only monovalent cations, and an ultrasonic wave generating device for preventing the accumulation of ions, the ion exchange membrane divides the electrolytic vessel into an anode chamber for ionizing an electrolyte solution and a cathode chamber for generating alkaline electrolytic ionized water, the anode chamber is connected with the anode plate, the cathode chamber is connected with the cathode plate, the anode plate is electrically connected with the cathode plate, and the ultrasonic wave generating device is fixed on the electrolytic vessel.

2. The apparatus according to claim 1, wherein said electrolytic vessel further comprises an anode chamber water inlet, an anode chamber water outlet, a cathode chamber water inlet, and a cathode chamber water outlet, said anode chamber water inlet and said anode chamber water outlet being respectively communicated with said anode chamber, said cathode chamber water inlet and said cathode chamber water outlet being respectively communicated with said cathode chamber.

3. The apparatus according to claim 1, wherein said ultrasonic generator comprises an ultrasonic power source and a transducer, said ultrasonic power source is electrically connected to said transducer, said transducer is fixed to said electrolytic vessel.

4. The apparatus according to claim 1, wherein said housing is an insulator.

5. The apparatus for producing strong alkaline non-drinking electrolyzed ionic water according to claim 1, wherein the ion exchange membrane may be a homogeneous membrane or a heterogeneous membrane.

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