CN220125154U

CN220125154U - Electrolysis module and disinfection equipment

Info

Publication number: CN220125154U
Application number: CN202321035826.2U
Authority: CN
Inventors: 郭建刚
Original assignee: Guangdong Xinbao Electrical Appliances Holdings Co Ltd
Current assignee: Guangdong Xinbao Electrical Appliances Holdings Co Ltd
Priority date: 2023-05-04
Filing date: 2023-05-04
Publication date: 2023-12-05
Anticipated expiration: 2033-05-04

Abstract

The utility model discloses an electrolysis module and disinfection equipment, wherein the electrolysis module comprises: the anode electrodes and the cathode electrodes are sequentially and alternately arranged, and a plurality of electrolytic chambers are sequentially formed between the adjacent anode electrodes and the adjacent cathode electrodes; the insulating sheets are respectively arranged in the electrolytic chambers in a one-to-one correspondence manner and are used for isolating the anode electrode and the cathode electrode; and a plurality of inlet ends respectively arranged at one side of each electrolysis chamber. The electrolytic module has reasonable structural design, can electrolyze the liquid for multiple times, fully electrolyzes chloride ions in the liquid, obtains more sterilization and disinfection components, reduces the generation of ozone, and is beneficial to improving the disinfection effect. In addition, the electrolytic module has the common anode electrode and cathode electrode, so that the electrolytic effect is not affected, and the use cost can be reduced.

Description

Electrolysis module and disinfection equipment

Technical Field

The utility model relates to the technical field of disinfection equipment, in particular to an electrolysis module and disinfection equipment.

Background

With the improvement of the living standard of people, the market has great demands for various disinfection products through epidemic situations of several years, for example: alcohol, sodium hypochlorite, ultraviolet light, ozone disinfection, etc., the current disinfection equipment can be used for fast disinfection, the machine and the bottle body can be separated, and various liquids can be replaced.

The utility model discloses a novel electrolytic disinfection bottle, such as a Chinese utility model novel in publication No. CN212679626U, which is characterized in that a water body electrolysis device of the disinfection bottle is arranged at the bottom of the disinfection bottle, and liquid containing sodium chloride in a transparent bottle body can be electrolyzed through the cooperation of a power supply plate and positive and negative electrode electrolyte sheets to generate neutral disinfection liquid, and the content is sprayed from a spray assembly. However, the scheme has insufficient electrolysis, so that only a small part of gas generated by electrolysis in the disinfection bottle can be dissolved in water, and most of the gas overflows to the upper layer of the water tank and is easy to escape, so that micro bubbles cannot be formed, the disinfection effect is not thorough enough, excessive ozone is generated, and the gas is harmful to human bodies.

Disclosure of Invention

Aiming at the technical problems, the embodiment of the utility model aims to provide an electrolysis module and a disinfection device, which are used for solving the problem that insufficient disinfection components contained in liquid after electrolysis affect the disinfection effect.

An object of an embodiment of the present utility model is to provide an electrolysis module, including:

the anode electrodes and the cathode electrodes are sequentially and alternately arranged, and a plurality of electrolytic chambers are sequentially formed between the adjacent anode electrodes and the adjacent cathode electrodes;

the insulating sheets are respectively arranged in the electrolytic chambers in a one-to-one correspondence manner and are used for isolating the anode electrode and the cathode electrode;

a plurality of inlet ends respectively arranged at one side of each electrolysis chamber;

and the outlet ends are respectively arranged on the other side of each electrolysis chamber, are positioned above the inlet ends, and are connected with the inlet ends of the adjacent electrolysis chambers along the flowing direction of the liquid to be electrolyzed. The electrolysis module provided by the utility model is provided with a plurality of electrolysis chambers capable of carrying out electrolysis, and the liquid can be fully electrolyzed when flowing through the plurality of electrolysis chambers, so that the electrolyzed liquid contains effective disinfection components, and the disinfection effect of the device is ensured.

As an alternative embodiment, the electrolytic module includes at least two anode electrodes and at least one cathode electrode, the cathode electrode is disposed between the two anode electrodes, and a first electrolytic chamber and a second electrolytic chamber are respectively formed between the two anode electrodes and one cathode electrode, and the first electrolytic chamber and the second electrolytic chamber share the same cathode electrode. The electrolysis module is used as a minimum constitution unit and comprises two electrolysis chambers, so that the liquid can be subjected to double electrolysis, the full electrolysis is ensured, the cathode electrode is shared, and the use cost is reduced.

As an alternative embodiment, the inlet end of the first electrolysis chamber is arranged at one side of the first electrolysis chamber close to the anode electrode, and the outlet end of the first electrolysis chamber is arranged at one side of the first electrolysis chamber close to the cathode electrode; and/or

The inlet end of the second electrolytic chamber is arranged at one side of the second electrolytic chamber, which is close to the anode electrode, and the outlet end of the second electrolytic chamber is arranged at one side of the second electrolytic chamber, which is close to the cathode electrode. The liquid to be electrolyzed enters the first electrolysis chamber from the inlet end of the first electrolysis chamber and is electrolyzed, the electrolyzed liquid leaves from the outlet end of the first electrolysis chamber and then enters the inlet end of the second electrolysis chamber, so that the liquid enters the second electrolysis chamber to be electrolyzed again, and the liquid is fully electrolyzed.

As an alternative embodiment, the electrolytic module further includes:

and one end of the connecting pipeline is connected with the outlet end of the first electrolysis chamber, and the other end of the connecting pipeline is connected with the inlet end of the second electrolysis chamber and is used for conveying the electrolyzed liquid in the first electrolysis chamber into the second electrolysis chamber. The connecting pipeline is convenient for delivering the liquid electrolyzed in the first electrolysis chamber to the second electrolysis chamber for electrolysis again, and the use is smooth.

As an alternative embodiment, the outlet end of the second electrolysis chamber is connected with the water inlet end of the three-way pipe, and the two water outlet ends of the three-way pipe are respectively connected with the water inlet end of the liquid discharging piece and the inlet end of the first electrolysis chamber. When the electrolytic module is of a structure of the smallest constituent unit, liquid after being electrolyzed by the second electrolytic chamber can enter the first electrolytic chamber again through the three-way pipe for electrolysis, and the time of electrolysis is prolonged by changing the flowing route of the liquid, so that the full degree of electrolysis is improved.

As an alternative embodiment, the electrolytic module further includes:

and the plurality of partition plates are arranged in the electrolysis chamber in a staggered manner so as to form a bent waterway in the electrolysis chamber. The bending waterway can form resistance when the liquid to be electrolyzed flows, so that the water flow time is prolonged, and the electrolysis is more sufficient.

As an alternative embodiment, the anode electrode is a porous structure, the cathode electrode is a non-porous structure, and the insulating sheet is a mesh structure. The anode electrode with the porous structure is beneficial to overflow of bubbles during electrolysis so as to form micro-bubble sterilized water.

As an alternative embodiment, the anode electrode shared by the plurality of electrolytic chambers is of a porous structure with a non-penetrating middle part, the cathode electrode is of a non-porous structure, and the insulating sheet is of a net structure. The adjacent anode electrodes among the plurality of electrolysis chambers are shared, the porous structure is favorable for overflowing bubbles during electrolysis, and the middle part of the porous structure is not communicated so as to ensure the independence of the adjacent electrolysis chambers and not to influence the respective electrolysis realization of the electrolysis chambers.

An object of an embodiment of the present utility model is also to provide a disinfection apparatus, including the above-mentioned electrolysis module, the disinfection apparatus further including:

a water tank for supplying the liquid to be electrolyzed to the electrolysis module;

the water inlet end of the water pump is connected with the outlet end and is used for conveying electrolyzed liquid;

the spray head is connected with the water outlet end of the water pump and is used for spraying electrolyzed liquid;

the power supply is respectively connected with the electrolysis module and the water pump and is used for supplying power;

and the control device is respectively connected with the electrolysis module and the water pump and is used for controlling the opening and closing of the electrolysis module and the water pump. The water pump conveys the liquid to be electrolyzed in the water tank into the electrolysis module, the electrolysis module performs multiple electrolysis and then sprays the liquid out through the spray head to sterilize, the electrolysis module can realize sufficient electrolysis, and the electrolyzed liquid is ensured to contain sterilizing components with effective concentration.

As an alternative embodiment, an ultrasonic atomization assembly is arranged in the spray head and is used for atomizing electrolyzed liquid. The electrolyzed water is in mist form for use, which is beneficial to improving the disinfection area and the comfort of use.

The embodiment of the utility model has the beneficial effects that:

the electrolytic module has reasonable structural design, can electrolyze the liquid for multiple times, fully electrolyzes chloride ions in the liquid, obtains more sterilization and disinfection components, reduces the generation of ozone, and is beneficial to improving the disinfection effect. In addition, the electrolytic module has the common anode electrode and cathode electrode, so that the electrolytic effect is not affected, and the use cost can be reduced.

In the electrolysis module, the porous anode electrode is adopted to increase the reaction time and the bending waterway is adopted to increase the water flow time, so that more microbubbles are generated during electrolysis, and the sufficient degree of electrolysis is ensured.

When the disinfection equipment is used, liquid is sprayed out through the electrolysis module by the water pump, and then is sprayed for electrolysis, so that the disinfection equipment does not need to electrolyze in advance, is convenient to use, prevents bubbles from escaping to ensure the effective concentration and disinfection effect of the micro-bubble disinfection water, ensures that the sprayed liquid has more effective disinfection components, and has wide application range.

Drawings

FIG. 1 is a schematic view of an electrolytic module according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a curved waterway of an electrolytic module according to an embodiment of the present utility model;

fig. 3 is a schematic structural view of a sterilizing apparatus according to an embodiment of the present utility model.

Reference numerals:

1. an anode electrode; 2. a cathode electrode; 3. an electrolysis chamber; 4. an insulating sheet; 5. an inlet end; 6. an outlet end; 7. a first electrolysis chamber; 8. a second electrolysis chamber; 9. a connecting pipeline; 10. a partition plate; 11. a water tank; 12. a water pump; 13. a spray head; 14. a power supply; 15. and a control device.

Detailed Description

Various aspects and features of the present utility model are described herein with reference to the accompanying drawings.

It should be understood that various modifications may be made to the embodiments of the application herein. Therefore, the above description should not be taken as limiting, but merely as exemplification of the embodiments. Other modifications within the scope and spirit of the utility model will occur to persons of ordinary skill in the art.

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and, together with a general description of the utility model given above, and the detailed description of the embodiments given below, serve to explain the principles of the utility model.

These and other characteristics of the utility model will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

It is also to be understood that, although the utility model has been described with reference to some specific examples, those skilled in the art can certainly realize many other equivalent forms of the utility model.

The above and other aspects, features and advantages of the present utility model will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

Specific embodiments of the present utility model will be described hereinafter with reference to the accompanying drawings; however, it is to be understood that the disclosed embodiments are merely exemplary of the utility model, which can be embodied in various forms. Well-known and/or repeated functions and constructions are not described in detail to avoid obscuring the utility model in unnecessary or unnecessary detail. Therefore, specific structural and functional details disclosed herein are not intended to be limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present utility model in virtually any appropriately detailed structure.

The specification may use the word "in one embodiment," "in another embodiment," "in yet another embodiment," or "in other embodiments," which may each refer to one or more of the same or different embodiments in accordance with the utility model.

In the recent past, the electrolytic water sterilization mode is adopted, namely, the electrolytic mode is adopted to generate acid water, the acid water is used as a disinfectant, and the main component of the acid electrolytic water sterilization is chlorine, so that the sterilization effect can be achieved.

It is an object of an embodiment of the present utility model to provide an electrolytic module comprising a plurality of anode electrodes 1, a plurality of cathode electrodes 2, a plurality of insulating sheets 4, a plurality of inlet ends 5 and a plurality of outlet ends 6, as shown in fig. 1.

The anode electrodes 1 and the cathode electrodes 2 are alternately arranged in turn, and a plurality of electrolysis chambers 3 are formed between adjacent anode electrodes 1 and cathode electrodes 2 in turn. Wherein the anode electrode 1 is always located at the outermost side.

The insulating sheets 4 are respectively arranged in the electrolytic chambers 3 in a one-to-one correspondence manner and are used for isolating the anode electrode 1 and the cathode electrode 2, so that the electrolytic operation in the electrolytic chambers 3 is ensured to be smooth.

The plurality of inlet ends 5 are respectively arranged on one side of each electrolysis chamber 3, the plurality of outlet ends 6 are respectively arranged on the other side of each electrolysis chamber 3, and the outlet ends 6 are positioned above the inlet ends 5, so that the flowing direction of liquid is always from bottom to top, and the electrolysis effect is ensured.

The outlet end 6 is connected to the inlet end 5 of the electrolysis chamber 3 adjacent thereto in the flow direction of the liquid to be electrolyzed. The electrolysis module is provided with a plurality of electrolysis chambers 3 capable of carrying out electrolysis, when liquid sequentially flows through the plurality of electrolysis chambers 3, enough time and electrolysis environment are provided to ensure sufficient electrolysis, and the liquid after sufficient electrolysis contains effective disinfection components to ensure the disinfection effect of the device.

Specifically, the liquid to be electrolyzed is tap water, and as the tap water is sterilized by using a chlorine-containing sterilizing product in a tap water factory, a certain amount of chloride ions remain in the tap water, the following reaction also occurs in the anode:

2Cl-→Cl ₂ +2e-

Cl ₂ +H ₂ O→HClO+HCl

HCl→Cl ₂ ↑+H ₂ ↑

HClO〈＝＝〉ClO-+H+

the hypochlorous acid generated is a sterilization factor and has the functions of sterilization and disinfection. Meanwhile, the adverse reaction is stopped, and ozone is prevented from being generated due to excessive oxygen production. The side reaction is as follows:

4OH--4e-→2H ₂ O+O ₂ ∈ (alkaline environment)

4H2O-4e-→4H++O ₂ ∈ (acid environment)

The electrolytic module has reasonable structural design, can electrolyze the liquid for multiple times, fully electrolyzes chloride ions in the liquid, obtains more sterilization and disinfection components, reduces the generation of ozone, and is beneficial to improving the disinfection effect. In addition, the electrolytic module of the utility model has the common anode electrode 1 and cathode electrode 2, which does not affect the electrolytic effect and can reduce the use cost.

As an alternative embodiment, the electrolytic module includes at least two anode electrodes 1 and at least one cathode electrode 2, the cathode electrode 2 is disposed between the two anode electrodes 1, a first electrolytic chamber 7 and a second electrolytic chamber 8 are respectively formed between the two anode electrodes 1 and one cathode electrode 2, and the first electrolytic chamber 7 and the second electrolytic chamber 8 share the same cathode electrode 2.

The electrolytic module consisting of at least two anode electrodes 1 and at least one cathode electrode 2 is the smallest constitutional unit, comprises two electrolytic chambers 3, can perform double electrolysis on liquid, ensures full electrolysis, shares the cathode electrode 2, and reduces the use cost.

As an alternative embodiment, the inlet end 5 of the first electrolysis chamber 7 is disposed at a side of the first electrolysis chamber 7 adjacent to the anode electrode 1, and the outlet end 6 of the first electrolysis chamber 7 is disposed at a side of the first electrolysis chamber 7 adjacent to the cathode electrode 2; and/or

The inlet end 5 of the second electrolytic chamber 8 is arranged at one side of the second electrolytic chamber 8 close to the anode electrode 1, and the outlet end 6 of the second electrolytic chamber 8 is arranged at one side of the second electrolytic chamber 8 close to the cathode electrode 2.

The liquid to be electrolyzed enters the first electrolysis chamber 7 from the inlet end 5 thereof and is electrolyzed, the electrolyzed liquid leaves from the outlet end 6 of the first electrolysis chamber 7 and then enters the inlet end 5 of the second electrolysis chamber 8, so that the liquid enters the second electrolysis chamber 8 for secondary electrolysis, the liquid is fully electrolyzed, and the concentration of the active ingredients of the sterilized water is ensured.

As shown in fig. 3, the electrolytic module further includes: and one end of the connecting pipeline 9 is connected with the outlet end 6 of the first electrolysis chamber 7, and the other end of the connecting pipeline is connected with the inlet end 5 of the second electrolysis chamber 8, and is used for conveying the liquid electrolyzed in the first electrolysis chamber 7 into the second electrolysis chamber 8.

Specifically, the liquid electrolyzed in the first electrolysis chamber 7 flows into the second electrolysis chamber 8 through a connecting pipeline 9, and is electrolyzed again. The connecting pipeline 9 can be arranged along the trend of the external shape of the electrolytic module, or can be directly arranged along a two-point connecting line from the outlet end 6 of the first electrolytic chamber 7 to the inlet end 5 of the second electrolytic chamber 8.

As an alternative embodiment, the outlet end 6 of the second electrolysis chamber 8 is connected with the water inlet end of the three-way pipe, and the two water outlet ends of the three-way pipe are respectively connected with the water inlet end of the liquid draining member and the inlet end 5 of the first electrolysis chamber 7.

When the electrolysis module is in the structure of the smallest constituent unit, the liquid after being electrolyzed by the second electrolysis chamber 8 can enter the first electrolysis chamber 7 again for electrolysis through the three-way pipe, and the time of electrolysis is prolonged by changing the flowing route of the liquid, so that the full degree of electrolysis is improved.

As an alternative embodiment, as shown in fig. 2, the electrolytic module further includes:

a plurality of separators 10 disposed in the electrolytic chamber 3 so as to form a curved water path in the electrolytic chamber 3. The electrolytic module with the smallest constituent unit further comprises two module plastic parts which are respectively positioned at the front side and the rear side of the anode electrode 1, and the separator 10 is connected with the module plastic parts.

The plurality of baffles 10 stagger the apparatus so that water flows between the curved waterways that they form. The bending waterway can form resistance when the liquid to be electrolyzed flows, so that the water flow time is prolonged, and the electrolysis is more sufficient.

As an alternative embodiment, the anode electrode 1 is a porous structure, the cathode electrode 2 is a non-porous structure, and the insulating sheet 4 is a mesh structure. The holes of the anode electrode 1 are arranged regularly, the aperture phi is 1.5mm, and the hole spacing is 2.0mm, so that the overflow of bubbles is facilitated during electrolysis, and the micro-bubble sterilizing water is formed. Moreover, the insulating sheet 4 is made into a diamond-shaped net-shaped structure, which not only plays an insulating role, but also generates a certain resistance to water flow, thereby being beneficial to prolonging the electrolysis time.

In the electrolysis module, more microbubbles are generated during electrolysis by adopting the porous anode electrode 1 to increase the reaction time and adopting the bending waterway to increase the water flow time, so that the full degree of electrolysis is ensured.

In some embodiments, the anode electrode 1 shared among the plurality of electrolytic chambers 3 has a porous structure with a non-penetrating middle part, the cathode electrode 2 has a non-porous structure, and the insulating sheet 4 has a mesh structure. The anode electrodes 1 adjacent to the plurality of electrolysis chambers 3 are shared, the porous structure is favorable for overflowing bubbles during electrolysis, and the middle of the porous structure is not communicated so as to ensure the independence of the adjacent electrolysis chambers 3 and not to influence the respective electrolysis realization of the electrolysis chambers 3.

It is also an object of an embodiment of the present utility model to provide a disinfection apparatus, as shown in fig. 3, comprising the above-mentioned electrolysis module, the disinfection apparatus further comprising a water tank 11, a water pump 12, a spray head 13, a power source 14 and a control device 15.

The water tank 11 is used for providing liquid to be electrolyzed for the electrolysis module, and the liquid in the water tank 11 is tap water or tap water with salt. The water inlet end of the water pump 12 is connected with the outlet end 6 and is used for conveying electrolyzed liquid. The spray head 13 is connected with the water outlet end of the water pump 12 and is used for spraying electrolyzed liquid.

The power supply 14 is connected with the electrolysis module and the water pump 12 respectively for supplying power. The power supply 14 supplies power to the constant current source, the electrolysis current is about 0.5A, and the voltage is 5V. The control device 15 is respectively connected with the electrolysis module and the water pump 12, and is used for controlling the opening and closing of the electrolysis module and the water pump 12. The disinfection equipment is also provided with an infrared automatic induction, a touch key and an LED indicator lamp, and adopts a rechargeable design.

The water pump 12 drives the water flow in the water tank 11 to pass through the plurality of electrolytic chambers 3 of the electrolytic module, and the water solution with sterilization and disinfection can be obtained after electrolysis, and the weak acid neutral PH is 6.0-7.0, is basically the same as the PH of human skin, has no stimulation, zero residue, no corrosion and high safety. The following table shows:

the water pump 12 drives the electrolyzed water to be sprayed out through the spray head 13, the electrolyzed water is completely used for sterilization and disinfection, and the electrolyzed water has extremely strong killing power on microorganisms such as bacteria, mold and the like, and has no pollution to the environment. The water circulation electrolysis mode is used for full electrolysis, and the utilization rate is high. The electrolysis module fully utilizes water resources and has high production efficiency.

As an alternative embodiment, an ultrasonic atomization assembly is disposed in the spray head 13, and is used for atomizing the electrolyzed liquid. The electrolyzed water is in mist form for use, which is beneficial to improving the disinfection area and the comfort of use. Part of the gas generated by electrolysis is dissolved in water, and the other part of the gas is sprayed out of the spray head 13 together with the water for hand disinfection, so that the gas is finer than ordinary atomization, nano-spray can be achieved, and the sterilization and disinfection effects are remarkably improved.

The above embodiments are only exemplary embodiments of the present utility model and are not intended to limit the present utility model, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this utility model will occur to those skilled in the art, and are intended to be within the spirit and scope of the utility model.

Claims

1. An electrolytic module, comprising:

a plurality of anode electrodes (1) and a plurality of cathode electrodes (2), wherein the plurality of anode electrodes (1) and the plurality of cathode electrodes (2) are sequentially and alternately arranged, and a plurality of electrolysis chambers (3) are sequentially formed between the adjacent anode electrodes (1) and the adjacent cathode electrodes (2);

a plurality of insulating sheets (4) which are respectively arranged in the plurality of electrolytic chambers (3) in a one-to-one correspondence manner and are used for isolating the anode electrode (1) and the cathode electrode (2);

a plurality of inlet ends (5) respectively arranged at one side of each electrolytic chamber (3);

and a plurality of outlet ends (6) which are respectively arranged on the other side of each electrolysis chamber (3), wherein the outlet ends (6) are positioned above the inlet ends (5), and the outlet ends (6) are connected with the inlet ends (5) of the electrolysis chambers (3) adjacent to the outlet ends along the flowing direction of the liquid to be electrolyzed.

2. The electrolysis module according to claim 1, characterized in that the electrolysis module comprises at least two anode electrodes (1) and at least one cathode electrode (2), wherein the cathode electrode (2) is arranged between the two anode electrodes (1), and a first electrolysis chamber (7) and a second electrolysis chamber (8) are respectively formed between the two anode electrodes (1) and one cathode electrode (2), and the first electrolysis chamber (7) and the second electrolysis chamber (8) share the same cathode electrode (2).

3. The electrolysis module according to claim 2, wherein the inlet end (5) of the first electrolysis chamber (7) is arranged at a side of the first electrolysis chamber (7) close to the anode electrode (1), and the outlet end (6) of the first electrolysis chamber (7) is arranged at a side of the first electrolysis chamber (7) close to the cathode electrode (2); and/or

The inlet end (5) of the second electrolysis chamber (8) is arranged on one side, close to the anode electrode (1), in the second electrolysis chamber (8), and the outlet end (6) of the second electrolysis chamber (8) is arranged on one side, close to the cathode electrode (2), in the second electrolysis chamber (8).

4. The electrolysis module of claim 3, further comprising:

and one end of the connecting pipeline (9) is connected with the outlet end (6) of the first electrolysis chamber (7), and the other end of the connecting pipeline is connected with the inlet end (5) of the second electrolysis chamber (8) and is used for conveying the electrolyzed liquid in the first electrolysis chamber (7) into the second electrolysis chamber (8).

5. An electrolysis module according to claim 3, wherein the outlet end (6) of the second electrolysis chamber (8) is connected to the water inlet end of a tee, the two water outlet ends of the tee being connected to the water inlet end of the drain and the inlet end (5) of the first electrolysis chamber (7), respectively.

6. The electrolytic module of any one of claims 1-5, further comprising:

and a plurality of separators (10) which are arranged in the electrolysis chamber (3) in a staggered manner so as to form a bent waterway in the electrolysis chamber (3).

7. The electrolytic module according to claim 1, wherein the anode electrode (1) has a porous structure, the cathode electrode (2) has a non-porous structure, and the insulating sheet (4) has a mesh structure.

8. The electrolytic module according to claim 1, wherein the anode electrode (1) shared among the plurality of electrolytic chambers (3) has a porous structure with a non-penetrating middle portion, the cathode electrode (2) has a non-porous structure, and the insulating sheet (4) has a mesh structure.

9. A disinfection apparatus comprising an electrolysis module according to any one of claims 1 to 8, further comprising:

a water tank (11) for supplying the liquid to be electrolyzed to the electrolysis module;

a water pump (12) with a water inlet end connected with the outlet end (6) for delivering electrolyzed liquid;

a nozzle (13) connected to the water outlet end of the water pump (12) for ejecting the electrolyzed liquid;

a power supply (14) which is respectively connected with the electrolysis module and the water pump (12) and is used for supplying power;

and the control device (15) is respectively connected with the electrolysis module and the water pump (12) and is used for controlling the opening and closing of the electrolysis module and the water pump (12).

10. A disinfection apparatus as claimed in claim 9, wherein said spray head (13) is provided with an ultrasonic atomizing assembly for atomizing the electrolyzed liquid.