CN218879564U - Alkaline ion water generator - Google Patents

Abstract

The utility model relates to an alkaline ionized water generator, include: the filtering unit is used for being connected with external water supply equipment to filter a water source; an electrolysis device connected with the water outlet end of the filtering unit and used for carrying out electrolysis treatment to generate alkaline ionized water, wherein the electrolysis device comprises: the electrolytic cell comprises a cylindrical electrolytic cathode, an electrolytic anode sleeved outside the electrolytic cathode, and an ionic membrane arranged between the electrolytic cathode and the electrolytic anode; a first liquid supply unit for injecting an electrolysis assistant; and a second liquid supply unit for injecting the electrode cleaning liquid. The electrolytic auxiliary agent is injected into the electrolytic device through the first liquid supply unit, then the electrolytic cathode and the electrolytic anode carry out electrolysis on water, in the electrolysis process, water is electrolyzed into hydrogen and hydroxyl ions OH < - > on one side of the electrolytic cathode, and alkaline ionized water is obtained and can be pumped out by an external drainage pump.

Description

Alkaline ion water generator

Technical Field

The utility model relates to the technical field of water treatment equipment, in particular to an alkaline ionized water generator.

Background

In the fields of daily life, public places, industrial production and the like, various conditions exist for cleaning, such as: agricultural products such as fruits and vegetables need to be cleaned to remove pesticide residues, public places need to be cleaned to remove oil stains and bacteria and scale, mechanical equipment or parts need to be cleaned to remove oil stains on the surfaces slowly, and the like. At present, solvent cleaning agents are usually adopted for corresponding cleaning work, and the cleaning agents contain various chemical components harmful to the environment, are easily limited by environmental protection policies and easily cause pollution to the environment. Researches show that the strong alkaline water can realize effective cleaning function and does not pollute the environment, but the preparation cost of the current strong alkaline water is high and the strong alkaline water is difficult to popularize and use.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, the present invention is directed to an alkaline ionized water generator having advantages of reducing the preparation cost of strong alkaline water.

To achieve the above and other related objects, the present invention provides the following technical solutions:

an alkaline ionized water generator comprising:

the filtering unit is used for being connected with external water supply equipment to filter a water source;

an electrolysis device connected with the water outlet end of the filtering unit and used for carrying out electrolysis treatment to generate alkaline ionized water, wherein the electrolysis device comprises: the device comprises a cylindrical electrolytic cathode, an electrolytic anode sleeved outside the electrolytic cathode and an ionic membrane arranged between the electrolytic cathode and the electrolytic anode, wherein a first separation chamber is formed between the electrolytic cathode and the ionic membrane, a second separation chamber is formed between the electrolytic anode and the ionic membrane, the ionic membrane is used for enabling cations generated by electrolysis to enter the second separation chamber from the first separation chamber and blocking anions from entering the second separation chamber from the first separation chamber, the inner side of the electrolytic cathode is communicated with the second separation chamber, and the inner side of the electrolytic cathode is connected with an external drainage pump to discharge alkaline ionized water;

the first liquid supply unit is communicated with the electrolysis anode and the electrode cathode and is used for injecting an electrolysis auxiliary agent; and the number of the first and second groups,

and the second liquid supply unit is communicated with the electrolysis anode and the electrode cathode and is used for injecting electrode cleaning liquid.

The technical scheme is realized, a water source is injected into a filtering unit by external water supply equipment, impurities in water are removed after the water source is filtered by the filtering unit, the water source is injected between an electrolytic cathode and an electrolytic anode, an electrolytic auxiliary agent is injected into an electrolytic device through a first liquid supply unit, then the electrolytic cathode and the electrolytic anode carry out electrolytic action on the water, in the electrolytic process, one side of the electrolytic cathode electrolyzes the water into hydrogen and hydroxyl ions (OH), and the hydroxyl ions (OH) are retained in a first separation cavity under the barrier action of an ionic membrane, so that the water in the first separation cavity is alkaline with the pH value of more than 12, and alkaline ionized water is obtained and can be pumped out by an external drainage pump, the whole preparation process is simple and convenient, and the cost is low; after alkaline ionized water is prepared for a period of time, impurities can be deposited on the surfaces of the electrolysis cathode and the electrolysis anode, so that the electrolysis effect is influenced, at the moment, electrode cleaning liquid is injected into the electrolysis device through the second liquid supply unit, the electrolysis cathode and the electrolysis anode are cleaned, the impurities deposited on the surfaces are removed, the electrolysis efficiency can be effectively improved, and the cleaned waste liquid can be discharged from a water outlet of the electrolysis device.

As a preferred scheme of the utility model, the filter unit is including the filter and the softening machine that connect gradually, the water inlet of filter is connected with outside water supply equipment, the delivery port of filter with the water inlet of water softener is connected, the delivery port of water softener with the electrolysis unit water inlet is connected.

According to the technical scheme, the filter is used for filtering impurities and removing iron oxide and the like in raw water, and the water softener can soften hard water so as to facilitate the subsequent electrolysis process.

As an optimized proposal of the utility model, the water inlet outlet of the filter is also connected with a water pressure tester.

According to the technical scheme, the pressure of the equipment during operation can be detected in real time through the hydraulic tester, and the alarm prompt can be given in time when the pressure is abnormal.

As a preferred scheme of the utility model, the both ends of electrolysis negative pole and electrolysis positive pole all sealing connection have a sealing end, the both ends of ionic membrane with sealing end sealing connection.

According to the technical scheme, the electrolytic cathode, the electrolytic anode and the ionic membrane are fixedly installed through the sealing end, and the water leakage phenomenon can be effectively avoided.

As a preferable aspect of the present invention, the first liquid supply unit includes: the device comprises a medicament container and a medicament injection pump connected with the medicament container, wherein an electrolysis assistant is stored in the medicament container.

By the technical scheme, the electrolysis auxiliary agent can be pumped out from the agent container into the electrolysis device through the drug injection pump.

As a preferable aspect of the present invention, the second liquid supply unit includes: the cleaning device comprises a cleaning container and a cleaning pump connected with the cleaning container, wherein an electrode cleaning agent is stored in the cleaning container.

According to the technical scheme, the electrode cleaning agent can be pumped out of the cleaning container to the electrolysis device through the cleaning pump.

As a preferred scheme of utility model, still including controlling the panel, it is connected with the treater to control the panel.

By the technical scheme, program setting and equipment control are conveniently carried out through the control panel.

As a preferred scheme of the utility model, still include the earth leakage circuit breaker, the earth leakage circuit breaker is connected with the supply circuit of alkaline ionized water generator.

According to the technical scheme, the leakage protection can be performed through the leakage circuit breaker, and the safety of equipment operation is improved.

As described above, the utility model discloses following beneficial effect has:

the embodiment of the utility model provides a through providing an alkaline ionized water generator, include: the filtering unit is used for being connected with external water supply equipment to filter a water source; an electrolysis device connected with the water outlet end of the filtering unit and used for carrying out electrolysis treatment to generate alkaline ionized water, wherein the electrolysis device comprises: the device comprises a cylindrical electrolytic cathode, an electrolytic anode sleeved outside the electrolytic cathode and an ionic membrane arranged between the electrolytic cathode and the electrolytic anode, wherein a first separation chamber is formed between the electrolytic cathode and the ionic membrane, a second separation chamber is formed between the electrolytic anode and the ionic membrane, the ionic membrane is used for enabling cations generated by electrolysis to enter the second separation chamber from the first separation chamber and blocking anions from entering the second separation chamber from the first separation chamber, the inner side of the electrolytic cathode is communicated with the second separation chamber, and the inner side of the electrolytic cathode is connected with an external drainage pump to discharge alkaline ionized water; the first liquid supply unit is communicated with the electrolysis anode and the electrode cathode and is used for injecting an electrolysis auxiliary agent; and the second liquid supply unit is communicated with the electrolysis anode and the electrode cathode and is used for injecting electrode cleaning liquid. The water source is injected into the filtering unit by external water supply equipment, impurities in the water are removed after the water is filtered by the filtering unit, the water is injected between the electrolytic cathode and the electrolytic anode, the electrolytic auxiliary agent is injected into the electrolytic device through the first liquid supply unit, then the electrolytic cathode and the electrolytic anode carry out electrolytic action on the water, in the electrolytic process, one side of the electrolytic cathode electrolyzes the water into hydrogen and hydroxyl ions OH < - >, the hydroxyl ions OH < - > are retained in the first separation cavity under the barrier action of an ion membrane, so that the water in the first separation cavity is alkaline with the pH value larger than 12, namely alkaline ionized water is obtained and can be pumped out by an external drainage pump, the whole preparation process is simple and convenient, and the cost is low; after alkaline ionized water is prepared for a period of time, impurities can be deposited on the surfaces of the electrolysis cathode and the electrolysis anode, so that the electrolysis effect is influenced, at the moment, electrode cleaning liquid is injected into the electrolysis device through the second liquid supply unit, the electrolysis cathode and the electrolysis anode are cleaned, the impurities deposited on the surfaces are removed, the electrolysis efficiency can be effectively improved, and the cleaned waste liquid can be discharged from a water outlet of the electrolysis device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic diagram illustrating the operation of the embodiment of the present invention.

FIG. 3 shows a schematic structural diagram of the electrolytic device of the present invention.

The numbers and letters in the figures represent the respective part names:

1. a filtration unit; 11. a filter; 12. a softening machine; 13. a water pressure tester; 2. an electrolysis device; 21. an electrolytic cathode; 22. an electrolytic anode; 23. an ionic membrane; 24. a first compartment; 25. a second compartment; 26. sealing the end head; 3. a first liquid supply unit; 31. a medicament container; 32. a drug injection pump; 4. a second liquid supply unit; 41. cleaning the container; 42. cleaning the pump; 5. a control panel; 6. a processor; 7. an earth leakage circuit breaker; 8. an external drain pump.

Detailed Description

The following description is given for illustrative embodiments of the present invention, and other advantages and effects of the present invention will be apparent to those skilled in the art from the disclosure of the present invention.

Please refer to fig. 1 to 3. It should be understood that the structure, proportion, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions of the present invention, so that the present invention does not have the substantial technical significance, and the modification of any structure, the change of the proportion relation or the adjustment of the size should still fall within the scope of the technical content disclosed in the present invention without affecting the function and the achievable purpose of the present invention. In addition, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are used for clarity of description only, and are not used to limit the scope of the present invention, and the relative relationship between the terms may be changed or adjusted without substantial technical changes.

Referring to fig. 1 to 3, the present invention provides an alkaline ionized water generator, including: a filtering unit 1 for connecting with an external water supply apparatus to filter a water source; the electrolysis device 2 is connected with the water outlet end of the filtering unit 1 and is used for carrying out electrolysis treatment to generate alkaline ionized water; the first liquid supply unit 3 is communicated with the electrolysis device 2 and is used for injecting electrolysis auxiliary agents; and a second liquid supply unit 4 communicated with the electrolysis device 2 and used for injecting the electrode cleaning liquid.

Specifically, the electrolysis apparatus 2 includes: the device comprises an electrolytic cathode 21 in a cylinder shape, an electrolytic anode 22 sleeved outside the electrolytic cathode 21, and an ionic membrane 23 arranged between the electrolytic cathode 21 and the electrolytic anode 22, wherein a first separation chamber 24 is formed between the electrolytic cathode 21 and the ionic membrane 23, a second separation chamber 25 is formed between the electrolytic anode 22 and the ionic membrane 23, the ionic membrane 23 is used for enabling cations generated by electrolysis to enter the second separation chamber 25 from the first separation chamber 24 and preventing anions from entering the second separation chamber 25 from the first separation chamber 24, the inner side of the electrolytic cathode 21 is communicated with the second separation chamber 25, and the inner side of the electrolytic cathode 21 is connected with an external drainage pump 8 to discharge alkaline ionized water.

The two ends of the electrolytic cathode 21 and the electrolytic anode 22 are respectively connected with a sealing end 26 through a sealant in a sealing manner, the two ends of the ionic membrane 23 are connected with the sealing end 26 in a sealing manner, the electrolytic cathode 21, the electrolytic anode 22 and the ionic membrane 23 are fixedly installed through the sealing ends 26, and the water leakage phenomenon can be effectively avoided; in general, in order to ensure the stability of the connection, reinforcing rods may be disposed near four corners of the sealing end 26, and a plurality of openings are formed at the bottom of the electrolytic cathode 21 for the circulation of raw water, a plurality of water inlet connectors are disposed on the upper sealing end 26 and communicated between the electrolytic cathode 21 and the electrolytic anode 22, a plurality of water discharge connectors are disposed on the lower sealing end 26, and a solenoid valve is disposed on a water discharge pipe connected to the water discharge connectors to control the water discharge.

The filtering unit 1 comprises a filter 11 and a softener 12 which are sequentially connected, a water inlet of the filter 11 is connected with external water supply equipment, a water outlet of the filter 11 is connected with a water inlet of the water softener, a water outlet of the water softener is connected with a water inlet of the electrolysis device 2, impurities are filtered through the filter 11, iron oxide and the like in raw water are removed, and the water softener can soften hard water so as to facilitate the subsequent electrolysis process; meanwhile, the water inlet and the water outlet of the filter 11 are also connected with a water pressure tester 13, the water pressure tester 13 can detect the pressure of the equipment during operation in real time, the alarm can be given in time when the pressure is abnormal, and an electromagnetic valve is also connected in front of the water pressure tester 13 to control the inflow of raw water.

The first liquid supply unit 3 includes: the electrolytic auxiliary agent is pumped out of the medicament container 31 to the electrolytic device 2 through the medicament injection pump 32, a sodium carbonate solution can be adopted, and a deflation valve can be arranged on the medicament injection pump 32 so as to exhaust air in the pump before use.

The second liquid supply unit 4 includes: the cleaning device comprises a cleaning container 41 and a cleaning pump 42 connected with the cleaning container 41, wherein an electrode cleaning agent is stored in the cleaning container 41, the electrode cleaning agent can adopt a citric acid solution, a water outlet of the cleaning pump 42 is communicated with the electrolysis anode 22 and the electrode cathode, and the electrode cleaning agent can be pumped out of the cleaning container 41 to the electrolysis device 2 through the cleaning pump 42.

Further, the alkaline ionized water generator of this embodiment is still including controlling panel 5, it is connected with treater 6 to control panel 5, it adopts the touch-sensitive screen to control panel 5, treater 6 is used for opening of each automatically controlled part of centralized control to open and stops the action, conveniently carry out program set and equipment control through controlling panel 5, can also set up earth leakage circuit breaker 7 simultaneously, earth leakage circuit breaker 7 is connected with alkaline ionized water generator's supply circuit, can carry out earth leakage protection through earth leakage circuit breaker 7, improve equipment operation's security. In this embodiment, all structures can be arranged in a case, and the case is provided with a plurality of installation chambers, so that integrated installation can be realized, and convenience in use and transportation can be realized.

The water source is injected into the filtering unit 1 by external water supply equipment, impurities in the water are removed after the water is filtered by the filtering unit 1, the water is injected between the electrolytic cathode 21 and the electrolytic anode 22, the electrolytic auxiliary agent is injected into the electrolytic device 2 through the first liquid supply unit 3, then the electrolytic cathode 21 and the electrolytic anode 22 carry out electrolysis on the water, in the electrolysis process, water on one side of the electrolytic cathode 21 is electrolyzed into hydrogen and hydroxyl ions OH-, and the hydroxyl ions OH-can be retained in the first separation chamber 24 under the blocking effect of the ion membrane 23, so that the water in the first separation chamber 24 is alkaline with the pH value of more than 12, and alkaline ionized water can be obtained and pumped out by the external drainage pump 8, the whole preparation process is simple and convenient, and the cost is low; after alkaline ionized water is prepared for a period of time, impurities are deposited on the surfaces of the electrolysis cathode 21 and the electrolysis anode 22, so that the electrolysis effect is influenced, at the moment, electrode cleaning liquid is injected into the electrolysis device 2 through the second liquid supply unit 4 to clean the electrolysis cathode 21 and the electrolysis anode 22, the impurities deposited on the surfaces are removed, the electrolysis efficiency can be effectively improved, and the cleaned waste liquid is discharged from a water outlet of the electrolysis device 2.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (8)

1. An alkaline ionized water generator, comprising:

the filtering unit is used for being connected with external water supply equipment to filter a water source;

an electrolysis device connected with the water outlet end of the filtering unit and used for carrying out electrolysis treatment to generate alkaline ionized water, wherein the electrolysis device comprises: the device comprises a cylindrical electrolytic cathode, an electrolytic anode sleeved outside the electrolytic cathode and an ionic membrane arranged between the electrolytic cathode and the electrolytic anode, wherein a first separation chamber is formed between the electrolytic cathode and the ionic membrane, a second separation chamber is formed between the electrolytic anode and the ionic membrane, the ionic membrane is used for enabling cations generated by electrolysis to enter the second separation chamber from the first separation chamber and blocking anions from entering the second separation chamber from the first separation chamber, the inner side of the electrolytic cathode is communicated with the second separation chamber, and the inner side of the electrolytic cathode is connected with an external drainage pump to discharge alkaline ionized water;

the first liquid supply unit is communicated with the electrolysis anode and the electrolysis cathode and is used for injecting an electrolysis auxiliary agent; and the number of the first and second groups,

and the second liquid supply unit is communicated with the electrolytic anode and the electrolytic cathode and is used for injecting electrode cleaning liquid.

2. The alkaline ionized water generator of claim 1, wherein the filtering unit comprises a filter and a softening machine which are connected in sequence, a water inlet of the filter is connected with an external water supply device, a water outlet of the filter is connected with a water inlet of the softening machine, and a water outlet of the softening machine is connected with a water inlet of the electrolysis device.

3. The alkaline ionized water generator of claim 2, wherein a water pressure tester is further connected to the water inlet and outlet of the filter.

4. The alkaline ionized water generator of claim 1, wherein sealing terminals are hermetically connected to both ends of the electrolytic cathode and the electrolytic anode, and both ends of the ionic membrane are hermetically connected to the sealing terminals.

5. The alkaline ionized water generator of claim 1, wherein the first liquid supply unit comprises: the device comprises a medicament container and a medicament injection pump connected with the medicament container, wherein an electrolysis auxiliary agent is stored in the medicament container.

6. The alkaline ionized water generator of claim 1, wherein the second liquid supply unit comprises: the cleaning device comprises a cleaning container and a cleaning pump connected with the cleaning container, wherein an electrode cleaning agent is stored in the cleaning container.

7. The alkaline ionized water generator of claim 1, further comprising a control panel, said control panel having a processor connected thereto.

8. The alkaline ionized water generator of claim 1, further comprising an electrical leakage breaker connected to a power supply circuit of the alkaline ionized water generator.

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