CN217973426U

CN217973426U - Ozone generator

Info

Publication number: CN217973426U
Application number: CN202120993287.8U
Authority: CN
Inventors: 王兰; 岑占波; 郭东灵; 张林林; 杨凌彦; 王姚; 张晓蕾
Original assignee: Ningbo Miyao Intelligent Technology Co ltd
Current assignee: Ningbo Miyao Intelligent Technology Co ltd
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2022-12-06
Anticipated expiration: 2031-05-11

Abstract

The utility model relates to the field of disinfection, and discloses an ozone generator, including the electrolysis tube, be provided with electrolysis subassembly and conductive component in the electrolysis tube, the electrolysis tube has water inlet end and a water outlet end, be provided with the water inlet on the water inlet end, be provided with the delivery port on the water outlet end, the electrolysis subassembly includes a plurality of anode groups and a plurality of negative pole group, a plurality of anode groups and a plurality of negative pole group are piled up each other along the electrolysis tube axis and are piled up and placed, and adjacent anode group and negative pole group looks joint, conductive component one end is connected with the electrolysis subassembly, one end passes the water inlet end and fixes on the water inlet end through the mounting, a plurality of anode groups link into the anode board through the conductive component board, a plurality of negative pole groups link into the negative pole board through the conductive component; the device enables the output efficiency of the active oxygen to be higher and the prepared disinfectant effect to be better.

Description

Ozone generator

Technical Field

The utility model relates to a disinfection field specifically is an ozone generator.

Background

The chemical formula of the active oxygen O3 is 47.998, the allotrope of oxygen is light blue gas with fishy smell. The active oxygen has strong oxidizing property, is a stronger oxidant than oxygen and can perform an oxidation reaction at a lower temperature; the active oxygen is a strong bleaching agent in the presence of water, and can be used as a strong oxidant, a bleaching agent, a fur deodorizer, an air purifying agent, a disinfectant and drinking water for disinfection and deodorization; in chemical production, active oxygen can be used to replace many catalytic oxidations or high-temperature oxidations, so as to simplify the production process and improve the productivity.

The reduction process of the active oxygen completes the functions of sterilization, deodorization, disinfection, bleaching, fresh-keeping and purification, so the active oxygen has the characteristics of broad-spectrum sterilization, instantaneous sterilization and no residue. The active oxygen is mainly applied to the sterilization and disinfection treatment of air and water in real life. The active oxygen is used for disinfection, so that the harm of a chemical disinfectant to the environment can be completely avoided, and the method is an ideal sterilization and disinfection method.

The existing low-voltage low-cost electrolytic active oxygen technology is a technical revolution for preparing active oxygen, and a core component of the active oxygen water prepared by preparation equipment on the existing market is an ozone generator which uses high-voltage current with certain frequency to prepare a high-voltage corona electric field so as to enable oxygen molecules in or around the electric field to generate electrochemical reaction to prepare ozone. Ozone gas generated by an ozone generator is injected into a water body at high pressure to disinfect the water body, the ozone gas is mostly applied to packaging water, the water body is sterilized into sterile water without sterilization capacity, ozone gas particles injected into the water body at high pressure are volatilized quickly, the ozone gas particles are polluted in a short time, and relative safety and worries exist, so that the sterilization effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model provides an ozone generator, which can solve the technical problem.

The utility model provides a following technical scheme: the utility model provides an ozone generator, including the electrolysis tube, be provided with electrolysis subassembly and conducting assembly in the electrolysis tube, the electrolysis tube has into water end and goes out the water end, be provided with the water inlet on the end of intaking, be provided with the delivery port on going out the water end, the electrolysis subassembly includes a plurality of positive poles group and a plurality of negative pole group, a plurality of positive poles group and a plurality of negative pole group alternately pile up along the electrolysis tube axis and place, and adjacent positive pole group and negative pole group looks joint, conducting assembly one end is connected with the electrolysis subassembly, one end is passed into water end and is fixed on the end of intaking through the mounting, a plurality of positive poles group links into the positive plate through the conducting assembly looks connection, a plurality of negative pole group link into the negative plate through the conducting assembly.

Further, the anode group comprises an anode sheet and a first separation seat, and the anode sheet is arranged on the first separation seat; the cathode group comprises a cathode sheet and a second partition seat, and the cathode sheet is arranged on the second partition seat; the anode sheet and the cathode sheet are both of a net structure, the first partition seat and the second partition seat are respectively provided with a plurality of first water through holes and a plurality of second water through holes, the anode sheet and the cathode sheet are provided with coating layers for improving the active oxygen manufacturing efficiency, and the anode sheets are connected through a plurality of gaskets arranged on the conductive assembly to form an anode plate; the plurality of cathode plates are also connected through a plurality of gaskets arranged on the conductive component to form a cathode plate.

Furthermore, a first groove is formed in the first partition seat, the plurality of first water through holes are formed in the bottom of the first groove, and the anode piece is installed in the first groove; a second groove is formed in the second partition seat, a plurality of second water through holes are formed in the bottom of the second groove, and the cathode plate is installed in the second groove; the first partition seat and the second partition seat are clamped together.

Furthermore, a clamping hole is formed in one end, where the first groove is located, of the first partition seat, a clamping portion is arranged at the other end of the first partition seat, and the clamping portion can be clamped in the clamping hole; the first separating seat and the second separating seat are identical in structure, and the adjacent first separating seat and the second separating seat can be matched and clamped together through the clamping portion and the clamping hole.

Furthermore, the first base and the second base are made of rubber.

Furthermore, the anode sheet and the cathode sheet are both made of pure titanium, the coating layer is an iridium-tantalum alloy layer, and the gasket is made of pure titanium material.

Further, the conductive assembly comprises an anode conductive assembly and a cathode conductive assembly; the anode conductive assembly comprises an anode connecting screw and an anode male-female head switching screw; the cathode conductive assembly comprises a cathode connecting screw and a cathode male-female head switching screw; one end of an anode connecting screw rod penetrates through the plurality of anode strips, the plurality of cathode strips, the plurality of first partition seats and the second partition seats along the axial direction of the electrolytic tube, is positioned outside the electrolytic assembly and is fixed through a first nut, the anode connecting screw rod is only contacted with the plurality of anode strips, the other end of the anode connecting screw rod is connected with an anode male-female head switching screw rod, and the anode male-female head switching screw rod penetrates through a water inlet end and is positioned outside the electrolytic tube and is fixed through a second nut; cathode connecting screw one end is passed a plurality of positive pole pieces, a plurality of negative pole pieces, a plurality of first seat and the second of separating along electrolysis tube axis direction and is located the electrolysis subassembly outside and passes through the third nut fixed, and cathode connecting screw only contacts with a plurality of negative pole pieces, and the cathode connecting screw other end is connected with the public female first switching screw rod of negative pole, and the public female first switching screw rod of negative pole passes the end of intaking and is located the electrolysis tube outside and pass through the fourth nut fixed.

Further, the electrolytic tube comprises an electrolytic tube body, a first cover and a second cover, wherein the first cover and the second cover are respectively connected to two ends of the electrolytic tube body; the end of intaking is located first and covers, is provided with first through-hole and second through-hole on the end of intaking, is carved with anodal symbol and negative pole symbol on the end of intaking of electrolysis tube, and anodal symbol is located by first through-hole, and the negative pole symbol is located by the second through-hole, and the one end that positive pole public female joint switching screw rod is close to the end of intaking is passed first through-hole and is connected with the one end that positive pole connecting screw rod is close to the end of intaking, and the one end that the public female joint switching screw rod of negative pole is close to the end of intaking passes the second through-hole and is connected with the one end that negative pole connecting screw rod is close to the end of intaking.

Furthermore, the anode connecting screw, the anode male-female joint switching screw, the cathode connecting screw and the cathode male-female joint switching screw are all made of pure titanium materials.

The utility model discloses possess following beneficial effect:

1. the utility model discloses well electrolysis subassembly is piled up by a plurality of positive poles group and a plurality of negative pole group alternately and is constituteed, and adjacent positive poles group and negative pole group looks joint, makes a plurality of positive poles group and a plurality of negative pole group fix for a whole, can increase correspondingly or reduce positive poles group and negative pole group according to required power to very convenient satisfying the electrolysis demand, satisfying the content of active oxygen in the disinfection water.

2. In the utility model, a plurality of anode sheets are connected through a plurality of gaskets arranged on the conductive component to form a whole anode plate; a plurality of negative pole pieces are also connected through a plurality of gaskets arranged on the conductive component to form a whole negative plate, so that the areas of the negative plate and the positive plate are indirectly increased, and the transverse volume of the device can not be enlarged.

2. The utility model discloses well anode plate and negative pole piece are network structure, have increased the area of contact of anode plate and negative pole piece with water, increase electrolysis area for electrolysis efficiency.

3. The utility model discloses well anode plate and negative pole piece are provided with the coating that improves preparation active oxygen efficiency, and

the anode sheet and the cathode sheet are both made of pure titanium, the coating layer is an iridium-tantalum alloy layer, the material can greatly increase the electrolysis efficiency, the generation speed of the active oxygen water is higher, and the electrolysis efficiency is higher.

4. The non-ionic membrane electrolytic ozone generator of the utility model usually produces the active oxygen water by electrolyzing the tap water, and compounds the solid noble metal iridium tantalum on the pure titanium material as the electrode. The generator can produce a large amount of small-particle active oxygen water, has low manufacturing cost and long water existence time, can obtain the disinfection effect with the killing rate of more than 90 percent, has the advantages of long sterilization time, reduction into oxygen and water after the sterilization is finished, no other accessory pollutants, long service life of a special electrode, simple use and maintenance, difficult collection of ozone and the like compared with the traditional ozone gas, and the application range is not limited. The ozone concentration is as high as 20%, and the other 80% is oxygen. The nitrogen oxide (nitrogen monoxide and nitrogen dioxide) is not contained, and carcinogenic substances are avoided, so that the nitrogen oxide-free flame-retardant coating is safer and more environment-friendly. The low-voltage electrolysis principle (DC 3-36V) is adopted, so that no potential safety hazard of power exists, no electromagnetic wave and noise are generated, and no interference is caused when the low-voltage electrolysis principle is used together with other precise instruments. Because the generation source of the active oxygen water generator is tap water, an oxygen source and other matched instruments outside the high-pressure ozone main machine are not needed during working, and the active oxygen water generator is convenient to operate, safe and reliable. The low pressure does not require any auxiliary equipment because it does not require air pre-treatment nor cooling, and can be used more safely.

Drawings

FIG. 1 is a schematic view of the overall cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the electrolytic assembly and the conductive assembly of the present invention;

FIG. 4 is a schematic top view of the first partition or the second partition of the present invention;

fig. 5 is a schematic bottom view of the first partition or the second partition of the present invention;

FIG. 6 is a schematic top view of the first spacer and the anode plate of the present invention;

fig. 7 is a schematic bottom view of the first spacer and the anode sheet of the present invention.

The reference numbers in the figures illustrate:

1. an electrolysis tube; 11. a water inlet; 12. a water outlet; 13. an electrolytic tube body; 14. a first cover; 15. a second cover; 2. an electrolytic assembly; 3. an anode sheet; 4. a first spacer; 41. a clamping hole; 42. a clamping part; 5. a cathode sheet; 6. a second partition seat; 7. an anode conductive member; 71. the anode is connected with the screw rod; 72. the anode male and female heads are connected with screws; 8. a cathode conductive assembly; 81. the cathode is connected with the screw rod; 82. the cathode male and female head is connected with a screw.

Detailed Description

Referring to fig. 1-7, an ozone generator comprises an electrolytic tube 1, an electrolytic assembly 2 and a conductive assembly are arranged in the electrolytic tube 1, the electrolytic tube 1 is provided with a water inlet end and a water outlet end, the water inlet end is provided with a water inlet 11, the water outlet end is provided with a water outlet 12, the electrolytic assembly 2 comprises a plurality of anode groups and a plurality of cathode groups, the anode groups and the cathode groups are alternately stacked along the axis of the electrolytic tube 1, the adjacent anode groups and the cathode groups are clamped, so that the anode groups and the cathode groups form a whole, one end of the conductive assembly is connected with the electrolytic assembly 2, the other end of the conductive assembly penetrates through the water inlet end and is fixed on the water inlet end through a fixing piece, the anode groups are connected into anode plates through the conductive assembly, and the cathode groups are connected into cathode plates through the conductive assembly.

The anode group comprises an anode sheet 3 and a first partition seat 4, the anode sheet 3 is arranged on the first partition seat 4, the first partition seat 4 is provided with a plurality of first water through holes, specifically, a first groove is arranged on the first partition seat 4, the plurality of first water through holes are arranged at the bottom of the first groove, and the anode sheet 3 is arranged in the first groove; the negative pole group includes negative pole piece 5 and second and separates seat 6, and negative pole piece 5 sets up on second separates seat 6, and second separates seat 6 and is provided with a plurality of second through holes, and is concrete, is provided with the second recess on the second separates seat 6, and a plurality of second through holes set up at second recess tank bottom, and negative pole piece 5 is installed in the second recess, and adjacent first separates seat 4 and second and separates 6 looks joints and make a plurality of negative poles group and a plurality of positive pole group link into a whole together.

The anode strip 3 and the cathode strip 5 are both of a net structure, so that the contact area of water with the anode strip 3 and the cathode strip 5 is larger, the electrolysis area is larger, and the efficiency of generating active oxygen is higher.

Anode strip 3 and cathode strip 5 are provided with the coating that improves preparation active oxygen efficiency, and is specific, and anode strip 3 and cathode strip 5 are by pure titanium for the base, and the outside cladding has iridium tantalum alloy layer, and when water contacted the electrolysis with iridium tantalum alloy layer, the speed that the active oxygen produced was faster, and the active oxygen content that contains in the active oxygen water is more, and the disinfection effect is better.

A plurality of positive pole pieces 3 are connected through a plurality of gaskets that set up on conductive component and form the anode plate, and a plurality of negative pole pieces 5 are also connected through a plurality of gaskets that set up on conductive component and form the negative plate, and then have increaseed the electrolysis area of negative plate and anode plate indirectly for electrolysis efficiency is higher.

One end at first recess place is provided with joint hole 41 on first septum seat 4, the other end at first septum seat 4 is provided with joint portion 42, joint portion 42 can the joint in joint hole 41, first septum seat 4 is the same with the 6 structures of second septum seat, adjacent first septum seat 4 and the cooperation joint of 6 accessible joint portions 42 of second septum seat and joint hole 41 are in the same place, make dismantlement and installation negative pole group and anode set, and it is more convenient when increasing negative pole piece and anode plate, can increase corresponding or reduce positive pole group and negative pole group according to required power, corresponding increase or reduction negative pole piece and anode plate promptly, thereby very convenient satisfying the electrolysis demand, satisfy the content of live oxygen in the disinfection water, make corresponding disinfection aquatic products can be made according to the demand during the preparation of disinfection water.

First seat 4 and second are separated 6 and are made by rubber, and rubber has elasticity and certain toughness for it is more convenient when first seat 4 and second separate 6 looks joints or when dismantling.

The conductive assembly comprises an anode conductive assembly 7 and a cathode conductive assembly 8, the anode conductive assembly 7 comprises an anode connecting screw rod 71 and an anode male-female head switching screw rod 72, and the cathode conductive assembly 8 comprises a cathode connecting screw rod 81 and a cathode male-female head switching screw rod 82.

One end of the anode connecting screw rod 71 far away from the water inlet end penetrates through the anode sheets 3 along the axis direction of the electrolytic tube 1, the cathode sheets 5, the first partition seats 4 and the second partition seats 6 and are positioned on the outer side of the electrolytic assembly 2, the end part of the anode connecting screw rod 71 positioned on the outer side of the electrolytic assembly 2 is connected with a first nut, the anode male and female head switching screw rod 72 is positioned on the outer side of the electrolytic tube 1, one end of the anode male and female head switching screw rod 72 close to the water inlet end penetrates through the water inlet end and is connected with one end of the anode connecting screw rod 71 close to the water inlet end, one end of the anode male and female head switching screw rod 72 far away from the water inlet end is connected with a second nut, and the electrolytic assembly 2 is fixed on the water inlet end through the first nut and the second nut.

One end of the cathode connecting screw 81 far away from the water inlet end penetrates through the anode plates 3 along the axis direction of the electrolytic tube 1, the cathode plates 5, the first spacer seats 4 and the second spacer seats 6 and are positioned on the outer side of the electrolytic assembly 2, the end part of the cathode connecting screw 81 positioned on the outer side of the electrolytic assembly 2 is connected with a third nut, the cathode male and female head switching screw 82 is positioned on the outer side of the electrolytic tube 1, one end of the cathode male and female head switching screw 82 close to the water inlet end penetrates through the water inlet end and is connected with one end of the cathode connecting screw 81 close to the water inlet end, one end of the cathode male and female head switching screw 82 far away from the water inlet end is connected with a fourth nut, and the disassembly assembly 2 is fixed on the water inlet end through the third nut and the fourth nut.

The anode sheet 3 is provided with a first through hole and a second through hole, the aperture of the first through hole and the aperture of the second through hole are both larger than the rod diameter of the anode connecting screw rod 71, the cathode sheet 5 is provided with a third through hole and a fourth through hole, the aperture of the third through hole and the aperture of the fourth through hole are both larger than the rod diameter of the cathode connecting screw rod 81, the first partition seat 4 is provided with a fifth through hole and a sixth through hole, and the aperture of the fifth through hole and the aperture of the sixth through hole are both larger than the rod diameter of the cathode connecting screw rod 81 and the rod diameter of the anode connecting screw rod 71; in the electrolytic component 2, the first through hole, the third through hole and the fifth through hole are coaxial, the anode connecting screw rod 71 penetrates through the plurality of first through holes, the plurality of third through holes and the plurality of fifth through holes to be fixed to the outer side of the electrolytic component 2 through the first nut, and the anode connecting screw rod 71 is in contact with the plurality of anode strips 3; in the electrolytic component 2, the second through hole, the fourth through hole and the sixth through hole are coaxial, the cathode connecting screw 81 passes through the plurality of second through holes, the plurality of fourth through holes and the plurality of sixth through holes to be fixed to the outer side of the electrolytic component 2 through a third nut, and the cathode connecting screw 81 is in contact with the plurality of cathode sheets 3 in a homogeneous phase manner.

The diameter of the pure titanium gasket is larger than the aperture of the fifth through hole and the aperture of the sixth through hole, and the diameter of the pure titanium gasket is smaller than the diameter of the second through hole and the diameter of the fourth through hole.

A pure titanium gasket is arranged on the outer diameter of the anode connecting screw rod 71 between the anode sheet 3 and the first partition seat 4, the pure titanium gasket is positioned between the anode sheet 3 and the inner bottom wall of the first partition seat 4, two pure titanium gaskets are arranged on the outer wall of the cathode connecting screw rod 81 between the anode sheet 3 and the first partition seat 4, the two pure titanium gaskets are positioned between the adjacent second partition seat 6 and the inner bottom wall of the first partition seat 4, the pure titanium gaskets penetrate through the second through hole, and the pure titanium gaskets are not contacted with the wall of the second through hole; two pure titanium gaskets are arranged on the outer diameter of the anode connecting screw rod 71 between the cathode plate 5 and the second spacer 6, the two pure titanium gaskets are positioned between the inner bottom wall of the second spacer 6 and the adjacent first spacer 4, and the pure titanium gaskets pass through the fourth through hole and are not contacted with the wall of the fourth through hole; keep away from the water inlet and go up the pure titanium gasket on positive pole connecting screw 71 or the negative pole connecting screw 81 and contact with the first nut of afterbody or be the third nut to a plurality of positive pole pieces 3 form the anode plate through the connection of a plurality of pure titanium gaskets, and a plurality of negative pole pieces 5 form the negative plate through the connection of a plurality of pure titanium gaskets, increase the area that has increased the polar plate with ordinary polar plate, make the polar plate become three-dimensional column structure, and can not increase the volume of electrolysis pipe 1.

Pure titanium gaskets are arranged in fifth through holes and sixth through holes formed in the first separating seat 4 and the second separating seat 6, so that adjacent cathode sheets and anode sheets can be communicated through the pure titanium gaskets for electrolysis, the pure titanium gaskets cannot be electrolyzed, and the service life is long.

The electrolytic tube 1 comprises an electrolytic tube body 13, a first cover 14 and a second cover 15, wherein the first cover 14 and the second cover 15 are respectively connected to two ends of the electrolytic tube body 13; the water inlet end is located on the first cover 14, a first through hole and a second through hole are formed in the water inlet end, a positive pole symbol and a negative pole symbol are carved on the water inlet end of the electrolytic tube 1, the positive pole symbol is located beside the first through hole, the negative pole symbol is located beside the second through hole, one end, close to the water inlet end, of the anode male-female head switching screw 72 is connected with one end, close to the water inlet end, of the anode connecting screw 71 through the first through hole, one end, close to the water inlet end, of the cathode male-female head switching screw 82 is connected with one end, close to the water inlet end, of the cathode connecting screw 81 through the second through hole, the anode connecting screw 71, the anode male-female head switching screw 72, the cathode connecting screw 81 and the cathode male-female head switching screw 82 are all made of pure titanium materials, the positive pole symbol and the negative pole symbol play a role in identification, and connection of an operator is avoided being connected wrongly during wiring.

The working principle is as follows: the electrolysis pipe 1 is vertically placed, water inlet 11 is down, water enters into to electrolysis pipe 1 from water inlet 11, water is when electrolysis subassembly 2, it produces the active oxygen to carry out the electrolysis, the liquid level of water risees and reaches the delivery port 12 department of electrolysis pipe 1, just can discharge the water that contains the active oxygen, and water is when passing through electrolysis subassembly 2, through the continuous electrolysis of several negative pole group and positive pole group, it is more to make the active oxygen production volume, make the active oxygen effect of exhaust better, make the disinfection effect of active oxygen water better, and can be through increasing or reducing the quantity of negative pole group and positive pole group in the electrolysis subassembly, make the sterile water of different concentrations.

Long electrolysis time, impurity can be attached to on the positive pole piece 3, reduces electrolysis efficiency, through the reverse connection line, makes the positive pole become the negative pole, and the negative pole becomes the positive pole, can make impurity break away from original positive pole piece 3 on, then by floating in aqueous, is washed away by the water-washed, reaches the purpose of getting rid of impurity.

Claims

1. An ozone generator, characterized by: comprises an electrolytic tube (1), wherein an electrolytic component (2) and a conductive component are arranged in the electrolytic tube (1);

the electrolysis tube (1) is provided with a water inlet end and a water outlet end, the water inlet end is provided with a water inlet (11), and the water outlet end is provided with a water outlet (12);

the electrolytic assembly (2) comprises a plurality of anode groups and a plurality of cathode groups;

a plurality of anode groups and a plurality of cathode groups are crossly stacked along the axis of the electrolytic tube (1), and the adjacent anode groups and cathode groups are clamped,

one end of the conductive component is connected with the electrolytic component (2), and the other end of the conductive component penetrates through the water inlet end and is fixed on the water inlet end through the fixing component;

the plurality of anode groups are connected into an anode plate through a conductive assembly, and the plurality of cathode groups are connected into a cathode plate through a conductive assembly.

2. An ozone generator according to claim 1, characterised in that: the anode group comprises an anode sheet (3) and a first separation seat (4), and the anode sheet (3) is arranged on the first separation seat (4);

the cathode group comprises a cathode sheet (5) and a second partition seat (6), and the cathode sheet (5) is arranged on the second partition seat (6);

the anode sheet (3) and the cathode sheet (5) are both of a net structure, and the first partition seat (4) and the second partition seat (6) are respectively provided with a plurality of first water through holes and a plurality of second water through holes;

the anode sheet (3) and the cathode sheet (5) are both provided with coating layers for improving the active oxygen production efficiency;

the anode plates are formed by connecting a plurality of anode sheets (3) through a plurality of gaskets arranged on the conductive assembly; the cathode plates (5) are also formed by connecting a plurality of gaskets arranged on the conductive component.

3. An ozone generator according to claim 2, wherein: a first groove is formed in the first partition seat (4), a plurality of first water through holes are formed in the bottom of the first groove, and the anode piece (3) is installed in the first groove;

a second groove is formed in the second partition seat (6), a plurality of second water through holes are formed in the bottom of the second groove, and the cathode plate (5) is installed in the second groove;

the adjacent first partition seat (4) and the second partition seat (6) are clamped together.

4. An ozone generator according to claim 3, characterised in that: one end of the first partition seat (4) where the first groove is located is provided with a clamping hole (41), the other end of the first partition seat (4) is provided with a clamping portion (42), and the clamping portion (42) can be clamped in the clamping hole (41);

the first separating seat (4) and the second separating seat (6) have the same structure, and the adjacent first separating seat (4) and the second separating seat (6) can be matched and clamped together through the clamping part (42) and the clamping hole (41).

5. An ozone generator according to claim 3, characterised in that: the first separation seat (4) and the second separation seat (6) are made of PP plastic materials.

6. An ozone generator according to claim 2, wherein: the anode sheet (3) and the cathode sheet (5) are both made of pure titanium, the coating layer is an iridium-tantalum alloy layer, and the gasket is made of pure titanium materials.

7. An ozone generator according to claim 2, wherein: the conductive component comprises an anode conductive component (7) and a cathode conductive component (8);

the anode conductive assembly (7) comprises an anode connecting screw rod (71) and an anode male-female head switching screw rod (72);

the cathode conductive assembly (8) comprises a cathode connecting screw rod (81) and a cathode male-female head switching screw rod (82);

one end of an anode connecting screw rod (71) penetrates through the plurality of anode strips (3), the plurality of cathode strips (5), the plurality of first partition seats (4) and the second partition seats (6) along the axial direction of the electrolytic tube (1) and is positioned on the outer side of the electrolytic assembly (2) and fixed through a first nut, the anode connecting screw rod (71) is only contacted with the plurality of anode strips (3), the other end of the anode connecting screw rod (71) is connected with an anode male-female head switching screw rod (72), and the anode male-female head switching screw rod (72) penetrates through a water inlet end and is positioned on the outer side of the electrolytic tube (1) and fixed through a second nut;

cathode connecting screw (81) one end is followed electrolysis pipe (1) axis direction and is passed a plurality of positive pole pieces (3), a plurality of negative pole pieces (5), a plurality of first seat (4) and the second of separating separate and seat (6) and is located electrolysis subassembly (2) outside and passes through the third nut fixed, and cathode connecting screw (81) only contacts with a plurality of negative pole pieces (5), cathode connecting screw (81) other end is connected with public female first switching screw (82) of negative pole, public female first switching screw (82) of negative pole pass the end of intaking and are located electrolysis pipe (1) outside and pass through the fourth nut fixed.

8. An ozone generator according to claim 7, wherein: the electrolytic tube (1) comprises an electrolytic tube body (13), a first cover (14) and a second cover (15), wherein the first cover (14) and the second cover (15) are respectively connected to two ends of the electrolytic tube body (13);

the end of intaking is located first lid (14), be provided with first through-hole and second through-hole on the end of intaking, be carved with anodal symbol and negative pole symbol on the end of intaking of electrolysis tube (1), anodal symbol is located by first through-hole, the negative pole symbol is located by the second through-hole, the one end that positive pole public female first switching screw rod (72) are close to the end of intaking is passed first through-hole and is connected with the one end that positive pole connecting screw rod (71) are close to the end of intaking, the one end that the end is close to the end of intaking of negative pole public female first switching screw rod (82) is passed the second through-hole and is connected with the one end that negative pole connecting screw rod (81) are close to the end of intaking.

9. An ozone generator according to claim 8, wherein: the anode connecting screw rod (71), the anode male-female head switching screw rod (72), the cathode connecting screw rod (81) and the cathode male-female head switching screw rod (82) are all made of pure titanium materials.