CN216141309U - Metal ion sterilizer - Google Patents
Metal ion sterilizer Download PDFInfo
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- CN216141309U CN216141309U CN202121679824.8U CN202121679824U CN216141309U CN 216141309 U CN216141309 U CN 216141309U CN 202121679824 U CN202121679824 U CN 202121679824U CN 216141309 U CN216141309 U CN 216141309U
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Abstract
A metal ion sterilizer comprises a tubular shell with two open ends, a controller, a wire connector arranged on the outer side of the tubular shell and connected with the controller, a first electrode plate group and a second electrode plate group which are arranged in the tubular shell and connected with the wire connector; the first electrode plate group and the second electrode plate group are fixed through the insulating assembly, and a space penetrating through openings at two ends of the tubular shell is formed between the first electrode plate group and the second electrode plate group. The first electrode plate group comprises N electrode plates, the second electrode plate group comprises N +1 electrode plates, and the electrode plates are mutually staggered and separated to form 2N symmetrical electric fields so as to avoid unbalanced consumption of the electrode plates. Through the combined action of the controller and the wire connector, the positive and negative electrodes of the power supplies of the first electrode plate group and the second electrode plate group are periodically changed, so that unbalanced consumption caused by single-side ionization of the positive electrode is avoided. The utility model has the advantages of balanced electrode consumption, low electrode plate transposition replacement frequency and low use and maintenance cost.
Description
Technical Field
The utility model belongs to the field of disinfection equipment, in particular to liquid disinfection equipment, and particularly relates to a metal ion disinfector for circularly disinfecting water bodies of swimming pools.
Background
The disinfection method applied to the swimming pool is various, and the following disinfection technologies are commonly used in the prior art according to factors such as the specification of the swimming pool, the number of people using the swimming pool, the requirement on the disinfection effect, the economic level and the like.
The pure chemical agent disinfection method and the chemical agent disinfection method are usually chlorine series disinfectants, and the common chlorine series disinfectants comprise: liquid chlorine, calcium hypochlorite (bleaching powder), sodium hypochlorite (high-efficiency bleaching powder and bleaching water), sodium dichloroisocyanurate (sodium dichloroisocyanurate), trichloroisocyanuric acid (strong chlorine), bromochlorohydantoin (bromine tablet) and chlorine dioxide. However, the disinfection effect of the medicament method is not lasting, the medicament needs to be added frequently, the disinfection effect is unstable, and the disinfection medicament and the derivatives thereof have great stimulation to human skin and are easy to induce allergy or skin inflammation.
Ozone is an unstable light purple gas at normal temperature and normal pressure, has killing capacity on various viruses and bacteria, and has excellent effects of degrading various organic poisons, removing color and odor, removing odor and improving water quality. The action mechanism is that the sterilization effect is achieved by destroying the dehydrogenase of bacteria to interfere the respiratory function, oxidizing various enzymes and proteins and destroying the cell membrane structure. However, ozone is decomposed faster in an aqueous solution than in a gas phase, and thus the sterilizing effect is unstable.
Ultraviolet disinfection, ultraviolet radiation is a low-energy electromagnetic radiation with energy of only 5eV and poor penetration. The ultraviolet radiation energy is low enough not to cause ionization of atoms, and only produces excitation action to make electrons in high energy state without releasing. Ultraviolet radiation is carried out on a water body and is transmitted into a microorganism body to act on nucleic acid and protoplasm protease, so that the chemical change is generated and the microorganism is killed.
The copper-silver metal ion disinfection method is a navigator of a new generation of swimming pool treatment technology. Because the metal ion treatment method adopts a pure physical method for disinfection, no harmful by-product is produced after the treatment, the water quality reaches the European Union standard, and the whole process does not produce waste gas and waste, thereby obtaining the approval and the recommendation of the European Union environmental protection agency. The method is widely applied to international space stations, Olympic Games swimming pools, high-grade villa private swimming pools and the like.
But the current copper silver ion disinfector has the problem of unbalanced electrode plate consumption.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the problem of unbalanced consumption of the electrode plate of the ion sterilizer.
In order to solve the above problems, the present invention provides a metal ion sterilizer, which is characterized in that: the device comprises a tubular shell with openings at two ends, a controller, a wire connector, a first electrode plate group and a second electrode plate group, wherein the wire connector is arranged on the outer side of the tubular shell and connected with the controller, and the first electrode plate group and the second electrode plate group are arranged in the tubular shell and connected with the wire connector.
The first electrode plate group and the second electrode plate group are fixed through the insulating assembly, and a space penetrating through openings at two ends of the tubular shell is formed between the first electrode plate group and the second electrode plate group.
The connector includes a first connector and a second connector connected to each other; the first electrode plate group is connected with the first wire connector, and the second electrode plate group is connected with the second wire connector.
The tubular housing includes a housing having openings at both ends and end caps having pipe connections mounted to both ends of the housing. The pipeline interface is a threaded hole, a buckle or a quick-connection interface. And the ion disinfector is connected into a circulating water pipeline through the pipeline interface so as to realize the dynamic circulating disinfection function.
The ion sterilizer further comprises a fixing support for fixing the first electrode plate group and the second electrode plate group, wherein the fixing support is made of insulating materials, and preferably two fixing supports are adopted in number to form a stable support.
The first electrode plate group comprises N electrode plates, the second electrode plate group comprises N +1 electrode plates, and the electrode plates of the first electrode plate group and the second electrode plate group are mutually staggered and separated. Through the arrangement that the number of the electrode plates of one electrode group is even and the number of the electrode plates of the other electrode group is odd, 2N symmetrical electric fields are formed between the two electrode groups, and unbalanced electrode plate consumption caused by asymmetrical electric fields is avoided.
The insulating assembly is a plurality of ceramic insulating tubes; an electrode plate penetrating and fixing the first electrode plate group and separating and supporting the second electrode plate group at one end of the tubular shell; the other end of the tubular shell penetrates through and fixes the second electrode plate group and separates and supports the electrode plates of the first electrode plate group; and an electrode screw penetrates through the middle of the ceramic insulating tube to fixedly combine the first electrode plate group and the second electrode plate group into a whole.
The electrode plate is made of copper-silver alloy, and silver ions and copper ions are released through electrolytic reaction to achieve the purpose of ion disinfection.
And one end of the electrode plate is provided with an insulating hole for the ceramic insulating tube to penetrate through, and the other end of the electrode plate is provided with a threaded fixing hole for connecting a power supply.
The electrode screw is connected with the first wire connector or the second wire connector through a conductive elastic sheet respectively.
Through the combined action of the controller and the wire connector, the positive electrode and the negative electrode of the power supply of the first electrode plate group and the second electrode plate group are periodically changed, so that unbalanced consumption of the electrode plates caused by single-side ionization of the positive electrode is avoided.
When the device is used, the controller provides power supply connection with different polarities for the first electrode plate group and the second electrode plate group, a plurality of electric fields are formed between the electrode plates which are arranged in the first electrode plate group and the second electrode plate group in a mutually staggered mode, water or other non-conductive liquid to be disinfected flows through the electrode plates, and the electrode plates connected with the positive pole continuously release silver ions and copper ions under the action of electrolytic reaction, so that ion disinfection of the water or other non-conductive liquid is realized.
In conclusion, the electrode plate replacement device has the beneficial technical effects that the electrode consumption is balanced, so that the frequency of electrode plate replacement and replacement is reduced, and the use and maintenance cost of products is reduced.
Drawings
FIG. 1 is a schematic longitudinal sectional view of the present invention;
FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 according to the present invention.
In the figure: 1. a controller; 2. a tubular housing; 3. a wire connector; 4. a first electrode plate group; 5. a second electrode plate group; 6. a ceramic insulating tube; 7. an electrode screw; 8. fixing a bracket; 9. a conductive spring plate; 21. a housing; 22. an end cap; a first wire connector; 32. a second wire connector; 201. a pipe interface; 801. and (5) fixing the bolt.
Detailed Description
The following further description of the embodiments with reference to fig. 1-2 and the specific examples is provided to facilitate the understanding of the present invention.
As shown in fig. 1, the present invention provides a metal ion sterilizer, which is characterized in that: the device comprises a controller 1, a tubular shell 2 with openings at two ends, a wire connector 3 arranged on the outer side of the tubular shell 2 and connected with the controller 1, and a first electrode plate group 4 and a second electrode plate group 5 which are arranged inside the tubular shell 2 and connected with the wire connector 3.
The first electrode plate group 4 and the second electrode plate group 5 are fixed by a plurality of ceramic insulating tubes 6, and a space penetrating through openings at two ends of the tubular shell 2 is formed between the first electrode plate group and the second electrode plate group.
As shown in fig. 1, the ceramic insulating tube 6 penetrates and fixes the first electrode plate group 4 and separately supports the electrode plates of the second electrode plate group 5 at one end of the tubular housing 2; electrode plates for penetrating and fixing the second electrode plate group 5 and separately supporting the first electrode plate group 4 at the other end of the tubular housing 2; the first electrode plate group 4 and the second electrode plate group 5 are fixedly combined into a whole by penetrating through an electrode screw 7 in the middle of the ceramic insulating tube 6. The electrode screw 7 is connected with the first wire connector 31 or the second wire connector 32 through a conductive elastic sheet 9.
The conductive elastic sheet 9 is in a thin and long cantilever sheet structure so as to facilitate the installation of the electrode assembly, the conductive elastic sheet 9 is attached to the side wall by the elasticity of the conductive elastic sheet 9 when the electrode assembly is installed, and after the electrode assembly is installed in the tubular shell 2, the conductive elastic sheet 9 is fixedly connected with the electrode screws at two ends by screws. Preferably, the surface of the conductive elastic sheet 9 is treated by plastic-impregnated insulation to avoid and reduce the consumption of electrolysis on the conductive elastic sheet 9, and further, the conductive elastic sheet 9 is designed to be replaceable to further improve the maintainability of the product.
The number of the conductive elastic sheets 9 is two, and two conductive elastic sheets 9 are respectively fixed at two ends of the tubular shell 2 and extend towards the mouth part at the other end to form a cantilever structure with good elasticity.
The electrode plate is made of copper-silver alloy, and silver ions and copper ions are released through electrolytic reaction to achieve the purpose of ion disinfection.
One end of the electrode plate is provided with an insulating hole for the ceramic insulating tube 6 to penetrate through, and the other end of the electrode plate is provided with a threaded fixing hole for connecting a power supply.
The connector 3 includes a first connector 31 and a second connector 32 connected to each other; the first electrode plate group 4 is connected to the first wire connector 31, and the second electrode plate group 5 is connected to the second wire connector 32.
The tubular housing 2 includes a housing 21 opened at both ends and end caps 22 having pipe joints 201 mounted at both ends of the housing 21. The pipe interface 201 is a threaded hole. The ion sterilizer is connected to a circulating water pipeline through the pipeline interface 201 to realize a dynamic circulating sterilization function.
The ion sterilizer further comprises two fixing supports 8 for fixing the first electrode plate group 4 and the second electrode plate group 5, the two fixing supports 8 are respectively used for fixing two ends of the first electrode plate group and the second electrode plate group 4 and 5, and the two fixing supports 8 are fixed through four fixing bolts 801 to form a whole.
The first electrode plate group 4 comprises two electrode plates, the second electrode plate group 5 comprises three electrode plates, and the electrode plates of the first electrode plate group 4 and the second electrode plate group 5 are mutually staggered and separated.
Through the combined action of the controller 1 and the wire connector 2, the positive and negative poles of the power supply of the first electrode plate group 4 and the second electrode plate group 5 are periodically changed, so that unbalanced consumption of the electrode plates caused by single-side ionization of the positive electrode is avoided.
When the device is used, the controller 1 provides power supply connections with different polarities for the first electrode plate group 4 and the second electrode plate group 5, a plurality of electric fields are formed between the electrode plates which are arranged in the first electrode plate group 4 and the second electrode plate group 5 in a staggered mode, water or other non-conductive liquid to be disinfected flows between the electrode plates, and the electrode plates connected with the positive pole continuously release silver ions and copper ions under the action of electrolytic reaction, so that ion disinfection of the water or other non-conductive liquid is realized.
The above description is only an example of the present invention, and not intended to limit the scope of the present invention, and all simple equivalent changes and modifications made in accordance with the claims and the contents of the specification are included in the scope of the present invention.
Claims (10)
1. A metal ion sterilizer, characterized in that: the device comprises a tubular shell with openings at two ends, a controller, a wire connector arranged on the outer side of the tubular shell and connected with the controller, a first electrode plate group and a second electrode plate group which are arranged in the tubular shell and connected with the wire connector;
the first electrode plate group and the second electrode plate group are fixed through the insulating assembly, and a space penetrating through openings at two ends of the tubular shell is formed between the first electrode plate group and the second electrode plate group;
the first electrode plate group comprises N electrode plates, the second electrode plate group comprises N +1 electrode plates, and the electrode plates of the first electrode plate group and the second electrode plate group are mutually staggered and separated.
2. A metal ion sterilizer of claim 1, wherein: the connector includes a first connector and a second connector connected to each other; the first electrode plate group is connected with the first wire connector, and the second electrode plate group is connected with the second wire connector.
3. A metal ion sterilizer of claim 1, wherein: the tubular housing includes a housing having openings at both ends and end caps having pipe connections mounted to both ends of the housing.
4. A metal ion sterilizer of claim 3, wherein: the pipeline interface is a threaded hole, a buckle or a quick-connection interface.
5. A metal ion sterilizer of claim 1, wherein: the electrode plate assembly fixing device further comprises a fixing support used for fixing the first electrode plate assembly and the second electrode plate assembly.
6. A metal ion sterilizer of claim 1, wherein: and two ends of the tubular shell are respectively fixed with a conductive elastic sheet and extend towards the opening part at the other end to form an elastic cantilever structure, and the conductive elastic sheets adopt a thin and long cantilever sheet structure.
7. A metal ion sterilizer of claim 2, wherein: the insulating assembly is a plurality of ceramic insulating tubes; an electrode plate penetrating and fixing the first electrode plate group and separating and supporting the second electrode plate group at one end of the tubular shell; the other end of the tubular shell penetrates through and fixes the second electrode plate group and separates and supports the electrode plates of the first electrode plate group; and an electrode screw penetrates through the middle of the ceramic insulating tube to fixedly combine the first electrode plate group and the second electrode plate group into an integrated electrode assembly.
8. A metal ion sterilizer of claim 7, wherein: the electrode plate is made of copper-silver alloy.
9. A metal ion sterilizer of claim 7, wherein: and one end of the electrode plate is provided with an insulating hole for the ceramic insulating tube to penetrate through, and the other end of the electrode plate is provided with a threaded fixing hole for connecting a power supply.
10. A metal ion sterilizer of claim 7, wherein: the electrode screws are respectively connected with the first wire connector or the second wire connector through conductive elastic pieces.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121679824.8U CN216141309U (en) | 2021-07-22 | 2021-07-22 | Metal ion sterilizer |
Applications Claiming Priority (1)
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CN202121679824.8U CN216141309U (en) | 2021-07-22 | 2021-07-22 | Metal ion sterilizer |
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CN216141309U true CN216141309U (en) | 2022-03-29 |
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CN202121679824.8U Active CN216141309U (en) | 2021-07-22 | 2021-07-22 | Metal ion sterilizer |
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2021
- 2021-07-22 CN CN202121679824.8U patent/CN216141309U/en active Active
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