CN211445168U - Electrolysis module and food purification equipment - Google Patents

Abstract

The utility model discloses an electrolysis module and food purification equipment, wherein the electrolysis module comprises a shell, an electrolysis sheet, a conducting rod, a power line and a sealing structure, and the shell is provided with an electrolysis bath; a plurality of electrolytic sheets are arranged in the electrolytic cell in parallel at intervals; the head ends of the conducting rods penetrate into the electrolytic bath from the bottom of the shell and are respectively electrically connected with an electrolytic sheet, and the tail ends of the conducting rods are positioned outside the electrolytic bath; the power line is electrically connected with the tail end of the conducting rod; the sealing structure can form a waterproof sealing space, and the connecting parts of the tail end of the conducting rod and the power line are sealed and isolated from the outside in the waterproof sealing space. The electrolytic module of the utility model has good waterproof sealing performance, eliminates the water leakage danger and the potential safety hazard, and has high safety and reliability; the electrolytic module is convenient to clean, maintain and repair, the cleaning and purifying performance is improved, and the service life is prolonged; the use is simple, convenient and flexible, the practicability is strong, the use requirements of users are met, and the user experience is effectively improved.

Description

Electrolysis module and food purification equipment

Technical Field

The utility model belongs to the technical field of the cleaning and purifying equipment is used in the kitchen, especially, relate to an electrolysis module and food purifying equipment.

Background

With the development of society, the improvement of living standard of people and the enhancement of health consciousness, the pursuit of health becomes strong, and the requirement of people on the hygienic safety of food materials is higher and higher. At present, food materials in families are mainly washed manually, and the food materials are washed by rubbing with hands and washed by water, so that the washing efficiency is low, the washing effect is poor, time and labor are consumed, pesticide residues, hormones and other heavy metals on the food materials cannot be removed, and the germ washing effect is small.

Along with the market demands and the demands of consumers, various fruit and vegetable cleaning and purifying products are more and more, the convenience of cleaning the fruit and vegetable is greatly improved, but most cleaning methods are not limited to electrolytic hydroxyl water, ozone, ultrasound, bubbles and the like. The ultrasonic cleaning has the defects of small treatment capacity, limitation to physical operation cleaning, easiness in incomplete purification, high energy consumption and the like; ozone has a strong pungent peculiar smell, pesticide residues cannot be thoroughly removed, the effect of removing the residual heavy metals in fruits and vegetables is poor, and ozone water can release harmful substances, can generate strong carcinogenic bromate, can damage the nutrition of food materials and is not suitable for long-term use; therefore, the application of the electrolysis method in fruit and vegetable purification products is increasing.

However, in the existing fruit and vegetable purification product, the water electrolysis device is directly fixed with the machine body, so that the fruit and vegetable purification product is inconvenient to disassemble, difficult to maintain and clean and easy to block, the power is reduced, and the electrolysis effect is poor; and the existing fruit and vegetable purification products have the disadvantages of complex structure, poor safety, large occupied space, inconvenient operation and limited use space.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model aims at providing an electrolysis module and food purification equipment, waterproof sealing performance is good, eliminates danger and the potential safety hazard of leaking, and the fail safe nature is high, easily maintains the clearance, and life is longer, and the electrolysis module can independent free use, and simple to use is nimble convenient, and the practicality is strong, satisfies user's user demand, effectively promotes user and uses experience.

To achieve the above object, in one aspect, the present invention provides an electrolysis module, comprising: a housing provided with an electrolytic cell; the electrolytic sheets are arranged in the electrolytic cell in parallel at intervals; the head ends of the conducting rods penetrate into the electrolytic cell from the bottom of the shell and are respectively electrically connected with one electrolytic sheet, and the tail ends of the conducting rods are positioned outside the electrolytic cell; the power line is electrically connected with the tail end of the conducting rod; and the sealing structure can form a waterproof sealing space, and the waterproof sealing space seals and isolates the tail end of the conducting rod and the connecting part of the tail end of the conducting rod and the power line from the outside.

In one example, the sealing structure includes a potting groove, the potting groove is disposed at the bottom of the housing, the power line and the tail end connection portion of the conductive rod and the tail end of the conductive rod are both located in the potting groove, and the potting groove is filled with potting adhesive for sealing.

In one example, the sealing structure further comprises a sealing sleeve, wherein the sealing sleeve is sleeved outside the glue pouring groove and seals the glue pouring groove opening.

In one example, the electrolytic module further comprises a light-emitting member, an electrical connection portion of the light-emitting member is located in the glue-pouring groove and electrically connected with the power line, and a through hole communicated with the electrolytic tank is formed in the glue-pouring groove; the sealing structure also comprises a lampshade, and the lampshade extends into the electrolytic cell from the through hole and seals the through hole; the light emitting part of the light emitting part is arranged in the lampshade, the electric connection part of the light emitting part is fixedly connected with the bottom of the shell, and the lampshade is tightly pressed and fixed at the bottom of the shell.

In one example, a connecting through hole is further arranged in the glue pouring groove, and the electric connecting part of the light-emitting piece is correspondingly provided with an electric connecting hole; the head end of the conducting rod sequentially penetrates through the electric connecting hole and the connecting through hole and is fixedly connected with the electrolytic sheet, and the tail end of the conducting rod tightly presses and fixes the light-emitting piece at the bottom of the shell and is electrically connected with the light-emitting piece.

In one example, the electrolyte sheet comprises a first electrolyte sheet and a second electrolyte sheet of opposite polarity, and the second electrolyte sheet is positioned above the first electrolyte sheet; a first binding post and a second binding post are arranged in the electrolytic cell, the height of the first binding post is smaller than that of the second binding post, a wiring sinking table is arranged at the top of the second binding post, and the top surface of the wiring sinking table is flush with that of the first binding post; the conducting rod penetrates through the first wiring terminal and is fixedly connected with the first electrolytic sheet, the first electrolytic sheet is provided with a first abdicating hole abdicating the top of the second wiring terminal, and the first electrolytic sheet is supported and fixed on the first wiring terminal and the top surface of the wiring sinking platform; and the other conducting rod penetrates through the second wiring terminal and the second electrolytic sheet which is fixedly connected with the second wiring terminal, the second electrolytic sheet is supported and fixed on the top surface of the second wiring terminal, and the second electrolytic sheet is provided with a second yielding hole which passes through the first wiring terminal and is used for the head end of the conducting rod.

In one example, the electrolysis module further comprises an insulated electrolyte sheet separator sandwiched and secured between the first electrolyte sheet and the second electrolyte sheet; or, the top of first terminal is provided with the protrusion in the wiring location muscle of top surface, first electrolysis piece is equipped with the confession the hole of dodging that wiring location muscle passes through, just the top surface of wiring location muscle with the top surface parallel and level of second terminal, second electrolysis piece supports to be fixed in the second terminal with the top surface of wiring location muscle, with first electrolysis piece with form insulating clearance between the second electrolysis piece.

In one example, the electrolysis module further comprises a screen mounted within the electrolysis cell, the screen being positioned over and shielding the electrolytic sheets.

In one example, a positioning column and a filter screen fixing column coaxially arranged in the positioning column are further arranged in the electrolytic cell, the electrolytic sheet is further provided with a positioning hole, and the filter screen is provided with a filter screen fixing part and an electrolytic sheet limiting rib; the reference column passes the locating hole of electrolysis piece, the filter screen fixed part insert in the reference column with filter screen fixed column fixed connection, the spacing muscle of electrolysis piece with the electrolysis piece butt is in order to right the electrolysis piece is installed the location.

On the other hand, the utility model also provides a food purification device, which comprises a purification cavity shell and any one of the electrolysis modules, wherein the purification cavity shell is provided with a purification cavity; the electrolysis module is detachably connected to the bottom of the purification cavity shell and communicated with the purification cavity, or the electrolysis module can be accommodated in the purification cavity in a picking and placing mode.

Through the utility model provides an electrolysis module and food purification equipment can bring following beneficial effect:

1. the sealing structure can provide good waterproof sealing performance, the waterproof sealing performance of the electrolysis module is good, the connection part of the tail end of the conducting rod and the power line is prevented from generating leakage and short circuit risks when the electrolysis module is soaked in water in the using process, the leakage risk is eliminated, the potential safety hazard is eliminated, and the safety and reliability are high; the electrolysis module can be completely immersed in water for use and can be directly washed, so that the electrolysis module is convenient to clean, maintain and repair, the power of the electrolysis module is prevented from being reduced due to blockage, the cleaning and purifying performance is improved, and the service life is prolonged; the electrolysis module can be installed at the bottom of the container with the purification cavity for use, and can also be independently arranged in a household water tank or other containers for use, so that the use is simple, convenient and flexible, the practicability is high, the use requirements of users are met, and the user experience is effectively improved.

2. The tail end connecting portion that power cord and conducting rod were flooded to whole the pouring of casting glue and the tail end of conducting rod can play complete waterproof sealing's effect, and the protectiveness is better, has both ensured that the electrolysis trough bottom does not have the danger of leaking water, and the tail end and the power cord of conducting rod produce the risk of leaking electricity when preventing again that the casing bottom from soaking in the use in aqueous, eliminate the potential safety hazard, and the security is high, and user experience is better.

3. The sealing sleeve is integrally sleeved on the pouring sealant groove, so that the pouring sealant is protected, the corrosion of water to the pouring sealant is slowed down, the waterproof sealing performance is ensured, and the service life is longer; meanwhile, the pouring sealant can be shielded, the connecting parts of the pouring sealant and the power line and the tail end of the conducting rod are hidden in the pouring sealant groove and the sealing sleeve, direct exposure outside is avoided, the overall appearance is cleaner and more attractive, and the user experience is better.

4. The lamp shade is sealed the isolation with encapsulating groove and electrolysis trough, plays waterproof sealing's effect completely, ensures that the electrolysis trough bottom does not have the danger of water leakage, prevents that water from getting into the illuminating part and causing the damage to the illuminating part, and safe and reliable prolongs illuminating part life, reduces use cost, promotes user experience.

5. The conducting rod is shared by the light-emitting piece and the electrolytic piece, so that the electricity connection with a power line is realized, the electric conductivity is good, the energy is saved, the consumption is reduced, the circuit connection structure is simplified, the material is saved, the structure is simple and low in cost, meanwhile, the light-emitting piece and the electrolytic piece are fixed through the conducting rod, the structure is stable, the waterproof sealing is convenient to carry out, the waterproof sealing performance is better, and the user experience is better.

6. Through conducting rod, first terminal and second terminal with electrolysis piece fixed mounting in the electrolysis trough, the succinct compactness of mounting structure reduces electrolysis module's volume, reduces the space and occupies, promotes user experience.

7. The first electrolytic sheet and the second electrolytic sheet are insulated and isolated by the electrolytic sheet clapboard, the electrolytic sheet clapboard can also play a role in supporting the second electrolytic sheet, the second electrolytic sheet is uniformly stressed, the supporting strength is high, and the second electrolytic sheet is firmly, stably and reliably fixed; the wiring positioning ribs at the tops of the first wiring posts are adopted to replace the electrolytic sheet partition plates, the second electrolytic sheets can be stably and reliably supported, the first electrolytic sheets and the second electrolytic sheets are insulated and isolated, the structure of an electrolytic module is simplified, parts are reduced, the structure is simple and compact, the production and assembly efficiency is improved, and the cost is reduced.

8. The filter screen can filter out sundries of the cleaned food materials, so that the cleaning, maintenance and repair of the electrolysis module are facilitated, the sundries are prevented from entering an electrolysis bath of the electrolysis module to pollute and block an electrolysis sheet, the reduction of the power of the electrolysis module is avoided, the cleaning and purifying performance is improved, and the service life is prolonged; meanwhile, the filter screen shields the mounting structure for hiding the electrolytic sheet in the electrolytic cell, so that the electrolytic sheet is prevented from being directly exposed outside, the overall appearance is more neat and attractive, and the user experience is effectively improved.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic perspective view of an electrolysis module according to an embodiment of the present invention;

FIG. 2 is a rear view of an electrolysis module provided in an embodiment of the present invention;

FIG. 3 is a left side view of an electrolysis module provided in an embodiment of the present invention;

fig. 4 is a bottom view of an electrolysis module provided in an embodiment of the present invention;

FIG. 5 is a top view of an electrolysis module provided in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of an exploded structure of an electrolytic module according to an embodiment of the present invention;

FIG. 7 is a schematic view of an assembly of an electrolytic sheet, an electrolytic sheet separator and a housing according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view of an electrolysis module through a cross-section of a conductive rod according to an embodiment of the present invention;

FIG. 9 is an enlarged view of portion A of FIG. 8;

FIG. 10 is an enlarged view of the portion B of FIG. 8;

FIG. 11 is a cross-sectional view of an electrolysis module through a cross-sectional post provided in an embodiment of the present invention;

FIG. 12 is an enlarged view of the portion C of FIG. 11;

FIG. 13 is a cross-sectional view of an electrolysis module through a cross-section of a conductive rod according to another embodiment of the present invention;

fig. 14 is a cross-sectional view of an electrolysis module through a housing fixing post section provided in an embodiment of the present invention;

FIG. 15 is a cross-sectional view of an electrolysis module cross-weight block positioning post cross-section provided in an embodiment of the present invention;

fig. 16 is a schematic perspective view of a housing according to an embodiment of the present invention;

fig. 17 is a schematic perspective view of a housing according to another embodiment of the present invention;

fig. 18 is a schematic perspective view of another view angle of the housing according to the embodiment of the present invention;

fig. 19 is a schematic view of the assembly of the conductive rod, the power line, the light emitting member and the housing according to the embodiment of the present invention;

FIG. 20 is a schematic structural view of a first electrolytic sheet according to an embodiment of the present invention;

fig. 21 is a schematic structural view of a filter screen according to an embodiment of the present invention;

fig. 22 is a schematic structural view of a filter screen according to an embodiment of the present invention;

fig. 23 is a schematic structural diagram of a bottom case according to an embodiment of the present invention;

fig. 24 is a schematic view of a first usage state of the food purifying apparatus according to the embodiment of the present invention;

FIG. 25 is an enlarged partial schematic view of FIG. 24;

fig. 26 is a schematic view of a second usage state of the food purifying apparatus according to the embodiment of the present invention.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings. For convenience of description, the terms "front", "rear", "left", "right", "upper" and "lower" will be used with respect to the user when the electrolysis module and the food purification apparatus are used.

As shown in fig. 1 to 19, 25 and 26, an embodiment of the present invention provides an electrolysis module 100, which includes a housing 1, an electrolysis sheet 2, a conductive rod 3, a power line 4 and a sealing structure. Wherein, the shell 1 is provided with an electrolytic bath 11, and a plurality of electrolytic sheets 2 are arranged in the electrolytic bath 11 in parallel at intervals; the head ends of the conductive rods 3 penetrate into the electrolytic bath 11 from the bottom of the shell 1 and are respectively electrically connected with an electrolytic sheet 2, the tail ends of the conductive rods 3 are positioned outside the electrolytic bath 11, and the power line 4 is electrically connected with the tail ends of the conductive rods 3; the sealing structure can form a waterproof sealing space, and the waterproof sealing space seals and isolates the tail end of the conducting rod 3 and the connecting part of the tail end of the conducting rod 3 and the power line 4 from the outside. When the electrolysis module 100 works, the electrolysis sheet 2 is soaked in water and is connected with the power line 4 through the conducting rod 3 to be electrified, the electrolysis sheet 2 can decompose water molecules into hydrogen ions and hydroxide ions, the hydroxide ions deprive the hydrogen ions of pesticides, bacteria and hormones to destroy the structures of the bacteria, the pesticides and the hormones, and the hydroxide ions and the deprived hydrogen ions are recombined into water to achieve the effect of purifying without releasing harmful substances. The sealing structure can provide good waterproof sealing performance, the waterproof sealing performance of the electrolysis module 100 is good, the connection part of the tail end of the conducting rod 3 and the power line 4 is prevented from generating leakage and short circuit risks when the electrolysis module 100 is soaked in water in the using process, the leakage risk is eliminated, the potential safety hazard is eliminated, and the safety and the reliability are high; the electrolysis module 100 can be completely immersed in water for use and can be directly washed, so that the electrolysis module 100 can be conveniently cleaned, maintained and maintained, the power of the electrolysis module 100 is prevented from being reduced due to blockage, the cleaning and purifying performance is improved, and the service life is prolonged; the electrolytic module 100 can be installed at the bottom of a container with a purification cavity 201 for use, and can also be independently arranged in a household water tank or other containers for use, so that the use is simple, convenient and flexible, the practicability is high, the use requirements of users are met, and the user experience is effectively improved. In a particular embodiment, the electrolysis module 100 comprises two electrolysis sheets 2 and two conducting bars 3.

Specifically, as shown in fig. 8, 11, 13 to 15, 18 and 19, the sealing structure includes a potting groove 12, the potting groove 12 is disposed at the bottom of the housing 1, the connection portion between the power line 4 and the tail end of the conductive rod 3 are both located in the potting groove 12, and the potting groove 12 is filled with potting adhesive for sealing. The whole enclosuring of casting glue submerges the tail end connecting portion of power cord 4 and conducting rod 3 and the tail end of conducting rod 3, can play complete waterproof sealing's effect, and the protectiveness is better, has both ensured 11 bottoms of electrolysis trough and has not had the danger of leaking, prevents again that 1 bottom of casing from soaking tail end and power cord 4 of conducting rod 3 when the aquatic from producing the risk of electric leakage in the use, eliminates the potential safety hazard, and the security is high, and user experience is better.

In one embodiment, the power cord 4 includes an inner wire 41 and an outer sheath 42 surrounding the inner wire, and the power cord 4 is electrically connected to the tail end of the conductive rod 3 through the inner wire 41. During installation, the edge of the outer sheath 42 of the power line 4 is placed into the glue pouring groove 12 at least for a certain height, the joint of the outer sheath 42 and the inner wire 41 of the power line 4 is enabled to be located inside the glue pouring groove 12, the inner wire 41 of the power line 4 is completely placed in the glue pouring groove 12, the inner wire 41 of the power line 4 is completely sealed inside the glue pouring groove 12 during glue pouring, the inner wire 41 of the power line 4 is ensured to be fully submerged by pouring glue, and the glue pouring can play a role in complete sealing. The pouring sealant material is selected from materials capable of passing food safety detection, for example, the pouring sealant can be AB glue.

Specifically, as shown in fig. 6, 8, 11, and 13 to 15, the sealing structure further includes a sealing sleeve 51, and the sealing sleeve 51 is sleeved outside the glue filling groove 12 and closes the glue filling groove opening. The sealing sleeve 51 integrally covers the pouring sealant groove 12, so that the pouring sealant is protected, the corrosion of water to the pouring sealant is slowed down, the waterproof sealing performance is ensured, and the service life is longer; meanwhile, the pouring sealant can be shielded, the connecting parts of the pouring sealant and the tail ends of the power line 4 and the conducting rod 3 are hidden in the pouring sealant groove 12 and the sealing sleeve 51, direct exposure outside is avoided, the overall appearance is neat and attractive, and the user experience is better. For example, the sealing sleeve 51 may be a silicone sleeve or a rubber sleeve.

Specifically, as shown in fig. 6 to 8, 11 and 13 to 20, the electrolysis module 100 further comprises a light emitting member 6, and the electrical connection portion 61 of the light emitting member 6 is located in the potting groove 12 and electrically connected with the power line 4; the glue pouring groove 12 is internally provided with a through hole 13 communicated with the electrolytic bath 11. The sealing structure also comprises a lampshade 52, the lampshade 52 extends into the electrolytic bath 11 from the through hole 13 and seals the through hole 13; the light emitting part 62 of the light emitting element 6 is installed in the lamp housing 52, and the electrical connection part 61 of the light emitting element 6 is fixedly connected with the bottom of the housing 1, and the lamp housing 52 is tightly pressed and fixed on the bottom of the housing 1. The illuminating part 6 is used for indicating the working state of the electrolysis module 100, and the power supply wire 4 is used for supplying power to the illuminating part 6, so that the operation is convenient and the work is reliable; the lampshade 52 is used for sealing and isolating the glue pouring groove 12 and the electrolytic cell 11, so that the complete waterproof sealing effect is achieved, the danger of water leakage at the bottom of the electrolytic cell 11 is avoided, water is prevented from entering the luminous piece 6 and damaging the luminous piece 6, safety and reliability are achieved, the service life of the luminous piece 6 is prolonged, the use cost is reduced, and the user experience is improved.

In one embodiment, the through hole 13 is located at the center of the bottom of the electrolytic bath 11, the electrolytic sheet light-transmitting hole 21 is arranged at the center of the electrolytic sheet 2, and the electrolytic sheet light-transmitting hole 21 is matched with the through hole 13 during use, so that the position of the lampshade 52 and the light-emitting condition of the light-emitting member 6 can be better observed. A plurality of through holes 13 may be opened in the potting groove 12, and the electrolytic module 100 includes a plurality of light emitting members 6 or the light emitting members 6 have a plurality of light emitting parts 62.

In one embodiment, the electrical connection portion 61 of the light emitting member 6 is a lamp panel, the light emitting portion 62 is a lamp post, and the through hole 13 may be a circular hole; the lampshade 52 comprises a light-transmitting cover 521 at the top and a stopping part 522 at the bottom, the light-transmitting cover 521 is hemispherical and can penetrate through the through hole 13 to extend into the electrolytic cell 11, the stopping part 522 is cylindrical, and the outer diameter of the stopping part 522 is larger than the aperture of the through hole 13 and can be abutted against the bottom of the shell 1 at the periphery of the through hole 13; the lampshade 52 is also provided with a lampshade sealing groove 523, the sealing structure further comprises a lampshade sealing ring 53, and the lampshade sealing ring 53 is arranged in the lampshade sealing groove 523; the lamp housing 52 is made of a transparent or translucent material as a whole. During installation, the lampshade sealing ring 53 is installed in the lampshade sealing groove 523, then the light-transmitting lampshade body 521 of the lampshade 52 penetrates through the through hole 13 of the shell 1 and extends into the electrolytic cell 11, the stopping part 522 is abutted against the bottom of the shell 1, and the lampshade sealing ring 53 is positioned between the lampshade 52 and the shell 1; the lamp plate is fixedly connected with the bottom of the shell 1, the stopping portion 522 of the lampshade 52 is pressed and fixed at the bottom of the shell 1, the lampshade sealing ring 53 is located between the lampshade 52 and the shell 1, the stopping portion 522 of the lampshade 52 and the lampshade sealing ring 53 are extruded through the lamp plate, and the function of sealing the lampshade 52 and the shell 1 is achieved.

Specifically, a connecting through hole 121 is further formed in the glue filling groove 12, and an electrical connecting portion 61 of the light emitting element 6 is correspondingly provided with an electrical connecting hole 63; the head end of the conductive rod 3 sequentially passes through the electric connecting hole 63 and the connecting through hole 121 and is fixedly connected with the electrolytic sheet 2, and the tail end of the conductive rod 3 tightly presses and fixes the luminous piece 6 at the bottom of the shell 1 and is electrically connected with the luminous piece 6. Luminous 6 and electrolytic piece 2 sharing conducting rod 3 realize being connected with power cord 4's electricity, and electric conductive property is good, and energy saving and consumption reduction simplifies circuit connection structure, save material, and simple structure is with low costs, simultaneously through the fixed luminous 6 of conducting rod 3 and electrolytic piece 2, stable in structure conveniently carries out waterproof sealing, and waterproof sealing performance is better, and user experience is better.

In one embodiment, the power cord 4 further includes a terminal 43, and the end of the conductive rod 3 is provided with a terminal port 31. The glue-pouring groove 12 is further provided with a luminous element positioning groove 122 around the connecting through hole 121, the electrolysis module 100 further comprises a positioning baffle ring 64 matched with the electric connecting part 61 of the luminous element 6 for use, the positioning baffle ring 64 and the electric connecting hole 63 are inserted into the luminous element positioning groove 122 in a matching manner, and the positioning baffle ring 64 is coaxial with the electric connecting hole 63, so that the vertical and the left and right positioning of the luminous element 6 are realized.

When the power cord is installed, firstly, the power cord 4 penetrates through the sealing sleeve 51, and the wiring terminal 43 is well connected with the inner wire 41 of the power cord 4; then the head end of the conducting rod 3 sequentially passes through the wiring terminal 43, the electric connection hole 63, the positioning baffle ring 64, the luminous element positioning groove 122 and the connection through hole 121 from the bottom of the shell 1 and then penetrates into the electrolytic cell 11 to be electrically connected with the electrolytic sheet 2, the wiring port 31 at the tail end of the conducting rod 3 simultaneously compresses and fixedly connects the electric connection part 61 of the wiring terminal 43 and the luminous element 6 to the bottom of the shell 1, and simultaneously realizes the electric connection of the conducting rod 3, the luminous element 6 and the power line 4; meanwhile, the lamp post of the illuminating part 6 is installed in the light-transmitting cover 521, and the lamp panel presses the stopping part 522 at the bottom of the lampshade 52 to press the lampshade sealing ring 53 to realize sealing. After the installation is finished, the glue filling groove 12 is filled with AB glue, and the lamp panel, the wiring terminal 43 and the inner wire 41 are completely filled with the AB glue; the sealing sleeve 51 is sleeved outside the potting groove 12 to protect and shield the potting adhesive and the lamp panel.

Specifically, as shown in fig. 6 to 17 and 20, the electrolytic sheet 2 includes a first electrolytic sheet 22 and a second electrolytic sheet 23 having opposite polarities, and the second electrolytic sheet 23 is located above the first electrolytic sheet 22; a first binding post 14 and a second binding post 15 are arranged in the electrolytic cell 11, the height of the first binding post 14 is smaller than that of the second binding post 15, a wiring sinking platform 151 is arranged at the top of the second binding post 15, and the top surface of the wiring sinking platform 151 is flush with the top surface of the first binding post 14. A conductive rod 3 passes through the first binding post 14 and is fixedly connected with a first electrolytic sheet 22, the first electrolytic sheet 22 is provided with a first abdicating hole 221 abdicating the top of the second binding post 15, and the first electrolytic sheet 22 is supported and fixed on the top surfaces of the first binding post 14 and the wiring sinking platform 151; the other conducting rod 3 passes through the second binding post 151 to be fixedly connected with the second electrolytic sheet 23, the second electrolytic sheet 23 is supported and fixed on the top surface of the second binding post 15, and the second electrolytic sheet 23 is provided with a second abdicating hole 231 abdicating the head end of the conducting rod 3 passing through the first binding post 14. Through conducting rod 3, first terminal 14 and second terminal 15 with electrolysis piece 2 fixed mounting in electrolysis trough 11, the succinct compactness of mounting structure reduces electrolysis module 100's volume, reduces the space and occupies, and simple to use is nimble convenient, promotes the user and uses experience.

In one embodiment, the first electrolyte sheet 22 is a negative electrode electrolyte sheet, the second electrolyte sheet 23 is a positive electrode electrolyte sheet, and the positive electrode electrolyte sheet and the negative electrode electrolyte sheet are in a symmetrical structure; correspondingly, the first terminal 14 is a negative terminal, and the second terminal 15 is a positive terminal. The positive electrode electrolytic sheet is made of pure titanium material, and ruthenium-iridium heavy metal material is sprayed on the surface of the positive electrode electrolytic sheet, wherein the ruthenium-iridium heavy metal material has good chlorine separation effect, can convert chloride ions in water into chlorine and hypochlorous acid, and can decompose water into hydroxyl ions and hydrogen ions; hydrogen ions are generated on the negative electrode electrolytic sheet, the negative electrode electrolytic sheet is made of pure titanium, and the surface of the pure titanium sheet is polished and treated by oxidizing mixed acid solution to obtain a bottom surface with a surface rich in titanium hydroxyl, so that the generation of the hydrogen ions is facilitated, and meanwhile, the oxidation is prevented. The conductive rod 3 is a titanium screw which sequentially passes through the first electrolytic sheet 22 and the second electrolytic sheet 23 and is screwed by a titanium nut 32, so that the first electrolytic sheet 22 and the second electrolytic sheet 23 are fixedly installed in the electrolytic bath 11 of the shell 1. A plurality of electrolytic sheet supporting ribs 111 are further arranged in the electrolytic cell 11 of the shell 1, the height of the electrolytic sheet supporting ribs 111 is the same as that of the first binding post 14, the first electrolytic sheet 22 is further supported and fixed on the top surface of the electrolytic sheet supporting ribs 111, the supporting strength for the first electrolytic sheet 22 is higher, and the first electrolytic sheet 22 is fixed firmly, stably and reliably.

Specifically, in one embodiment, as shown in fig. 6-12 and 14-16, the electrolysis module 100 further comprises an insulating electrolyte sheet separator 7, the electrolyte sheet separator 7 is clamped and fixed between the first electrolyte sheet 22 and the second electrolyte sheet 23 to insulate and separate the first electrolyte sheet 22 from the second electrolyte sheet 23; the electrolytic sheet separator 7 can also play a role in supporting the second electrolytic sheet 23, the second electrolytic sheet 23 is stressed uniformly, the supporting strength is high, and the second electrolytic sheet 23 is fixed firmly, stably and reliably. In one embodiment, the electrolyte sheet separator 7 is made of ABS (Acrylonitrile Butadiene Styrene) or PVC (Polyvinyl chloride) material, and the thickness of the electrolyte sheet separator 7 is related to the power of the electrolytic module 100 and the area of the electrolyte sheet 2, and is generally selected to be 1-3 mm. The electrolytic sheet separator 7 is provided with a separator light-transmitting hole 71, a separator receding hole 72, a separator fixing hole 73, and a separator positioning hole 74 corresponding to the electrolytic sheet 2.

In another embodiment, as shown in fig. 13, 17 and 20, the top of the first terminal 14 is provided with a wiring positioning rib 141 protruding from the top surface, the first electrolytic sheet 22 is provided with an avoiding hole 222 for the wiring positioning rib 141 to pass through, the top surface of the wiring positioning rib 141 is flush with the top surface of the second terminal 15, and the second electrolytic sheet 23 is supported and fixed on the top surfaces of the second terminal 15 and the wiring positioning rib 141 to form an insulation gap between the first electrolytic sheet 22 and the second electrolytic sheet 23. The wiring positioning rib 141 at the top of the first wiring terminal 14 is adopted to replace the electrolytic sheet separator 7, so that the second electrolytic sheet 23 can be stably and reliably supported, the first electrolytic sheet 22 and the second electrolytic sheet 23 are insulated and isolated, the structure of the electrolytic module 100 is simplified, parts are reduced, the structure is simple and compact, the production and assembly efficiency is improved, and the cost is reduced. During installation, the first abdicating hole 221 of the first electrolytic sheet 22 passes through the wiring sinking platform 151 of the second binding post 15 for positioning, and the abdicating groove 222 of the first electrolytic sheet 22 passes through the wiring positioning rib 141 on the first binding post 14; the bottom surface of the second electrolytic sheet 23 is matched with the wiring positioning rib 141 and the top surface of the second binding post 15, so that the second electrolytic sheet 23 is supported; the height of the wiring sinking platform 151 on the top of the second wiring post 15 is increased to ensure that a certain distance is kept between the first electrolytic sheet 22 and the second electrolytic sheet 23.

Specifically, as shown in fig. 1, 4 to 17, and 20 to 22, the electrolysis module 100 further includes a screen 8, the screen 8 is installed in the electrolysis bath 11, and the screen 8 is located above the electrolysis sheet 2 and shields the electrolysis sheet 2. The filter screen 8 can filter out sundries of the cleaned food materials, so that the cleaning, maintenance and repair of the electrolysis module 100 are facilitated, the sundries are prevented from entering the electrolysis bath 11 of the electrolysis module 100 to pollute and block the electrolysis sheet 2, the reduction of the power of the electrolysis module 100 is avoided, the cleaning and purifying performance is improved, and the service life is prolonged; meanwhile, the filter screen 8 shields the installation structure for hiding the electrolytic sheet 2 in the electrolytic cell 11, so that the direct exposure is avoided, the overall appearance is more neat and attractive, and the user experience is effectively improved.

Specifically, a positioning column 16 and a filter screen fixing column 161 coaxially arranged in the positioning column 16 are further arranged in the electrolytic cell 11, the electrolytic sheet 2 further has a positioning hole 24, and the filter screen 8 is provided with a filter screen fixing portion 81 and an electrolytic sheet limiting rib 82. The positioning column 16 penetrates through the positioning hole 24 of the electrolytic sheet 2, and the outer edge of the positioning column 16 is matched with the positioning hole 24 of the electrolytic sheet 2 and the partition positioning hole 74 of the electrolytic sheet partition 7 to play a role in positioning the electrolytic sheet 2 and the electrolytic sheet partition 7; after installation, the top surface of the positioning column 16 is slightly higher than the top surface of the second electrolytic sheet 23, so that a good positioning effect can be achieved when the second electrolytic sheet 23 is installed. The filter screen fixing part 81 is inserted into the positioning column 16 and fixedly connected with the filter screen fixing column 161, and the filter screen fixing part 81 is matched with the inner circle of the top of the positioning column 16 to play a role in positioning the filter screen 8; spacing muscle 82 of electrolysis piece and 2 butts of electrolysis piece to install the location to electrolysis piece 2, the spacing muscle 82 of electrolysis piece compresses tightly electrolysis piece 2 after the installation is accomplished, plays 2 spacing effects of electrolysis piece, prevents that electrolysis piece 2 is not hard up or removes, and 2 installation of electrolysis piece are fixed firm stable.

During installation, the first electrolytic sheet 22 is placed in the electrolytic cell 11 of the shell 1, the fixing hole 25 of the first electrolytic sheet 22 is ensured to be over against the first binding post 14, the bottom of the first electrolytic sheet 22 is in contact with the electrolytic sheet supporting rib 111 and the top surface of the first binding post 14 for limiting, the first electrolytic sheet is fixed through the titanium nut 32 and the titanium screw which penetrates through the first binding post 14, the first abdicating hole 221 penetrates through the wiring sinking platform 151 of the second binding post 15 for abdicating, and the positioning hole 24 of the first electrolytic sheet 22 penetrates through the positioning post 16 for positioning. Then, placing the electrolytic sheet separator 7 on the upper part of the first electrolytic sheet 22, wherein the separator positioning hole 74 penetrates through the positioning column 16 for positioning, and the separator fixing hole 73 is opposite to the first binding post 14; and then the second electrolytic sheet 23 is arranged on the electrolytic sheet clapboard 7, the positioning hole 24 of the second electrolytic sheet 23 penetrates through the positioning column 16 for positioning, the fixing hole 25 of the second electrolytic sheet 23 is over against the second binding post 15 and is fixed by the connection of the titanium nut 32 and the titanium screw penetrating through the second binding post 15, the second abdicating hole 231 of the second electrolytic sheet 23 is over against the first binding post 14, and the second abdicating hole 231 is large enough to avoid the short circuit phenomenon caused by the contact of the second electrolytic sheet 23 and the titanium nut 32 connected with the titanium screw penetrating through the first binding post 14.

In a specific embodiment, the circumferential outer edge of the filter screen 8 is provided with an annular convex rib 83, so that the filter screen 8 is integrally T-shaped, and the annular convex rib 83 is matched with the inner wall of the electrolytic tank 11 of the shell 1, thereby not only limiting the filter screen 8, but also having a certain reinforcing effect. The filter screen 8 is provided with a yielding boss 84 corresponding to the first binding post 14 and the second binding post 15, and is used for yielding the conducting rod 3 passing through the first binding post 14 and the second binding post 15 to prevent interference. The strainer 8 is provided with a strainer screw groove 85 corresponding to the strainer fixing portion 81, and the bottom of the strainer screw groove 85 is in contact with the strainer fixing post 161 and is fixedly connected by a strainer fastening screw 86, thereby fixing the strainer 8 in the electrolytic bath 11 of the case 1. And finally, a filter screen silica gel plug 87 is arranged in the filter screen screw groove 85, so that the filter screen screw is simple and attractive, and has a sealing effect. The center of the filter screen 8 is provided with a filter screen light hole 88 corresponding to the electrolytic sheet light hole 21, and the filter screen light hole 88 is matched with the electrolytic sheet light hole 21 and the through hole 13 during use, so that the position of the lampshade 52 and the light emitting condition of the light emitting piece 6 can be better observed.

Specifically, as shown in fig. 6, 8, 11, 13 to 15, 24 and 25, the electrolysis module 100 further includes a weight 9, and the weight 9 is disposed in the housing 1. The balancing weight 9 plays a role in increasing weight and texture, when the electrolysis module 100 is used alone, the electrolysis module 100 can be ensured to sink to the bottom of a water tank or a container, so that hydroxide ions generated by water decomposition can be fully contacted with food materials, and the cleaning and purifying effects are improved; when the electrolysis module 100 is installed at the bottom of the container with the purification cavity 201 for use, the container can be placed more stably, side turning is prevented, and the use experience of a user is effectively improved. Wherein, the material of the balancing weight 9 can be stainless steel 304, which can avoid the rusting phenomenon caused by the contact of the balancing weight 9 and water.

Specifically, fig. 8, fig. 11, fig. 13 ~ 19, fig. 24 and fig. 25 show, the bottom side of casing 1 is provided with balancing weight mounting groove 17, balancing weight 9 is installed in balancing weight mounting groove 17, balancing weight mounting groove 17's shape and balancing weight 9's shape looks adaptation to inject balancing weight 9's radial position, balancing weight 9 installs firmly stably in casing 1, and difficult removal is rocked, and the focus is more stable, and convenience of customers uses, promotes user experience.

Specifically, be provided with the spacing portion 171 of a plurality of balancing weights in the balancing weight mounting groove 17, the axial position of balancing weight 9 in balancing weight mounting groove 17 is injectd to the spacing portion 171 of balancing weight and the axial terminal surface butt of balancing weight 9, and balancing weight 9 is installed and is firmly stable in casing 1, and difficult removal rocks, and the focus is more stable, and convenience of customers uses, and user experience is better.

Specifically, the housing 1 is provided with a plurality of rotary clamping grooves 18, for example, 3, around the circumference of the electrolytic cell 11, and the electrolytic module 100 can be detachably mounted to the container having the purification chamber 201 through the rotary clamping grooves 18; the rotary clamping groove 18 and the rotary clamping rib 202 correspondingly arranged on the container are matched with each other to be rotationally clamped, so that the electrolytic module 100 and the container can be detachably and fixedly connected, the rotary clamping fixing structure is simple and easy to realize, the manufacturing cost is low, the dismounting is fast and convenient, the work is stable, and the connection is firm and the reliability is high. And rotatory draw-in groove 18 is sunken in towards balancing weight mounting groove 17, the bottom of rotatory draw-in groove 18 realizes the spacing effect of balancing weight 9 axial with the cooperation of balancing weight 9, the bottom of rotatory draw-in groove 18 forms the spacing portion 171 of balancing weight promptly, rotatory draw-in groove 18 plays simultaneously and is connected with the container and to the spacing effect of balancing weight 9 axial to simplify casing 1 structure, reduce manufacturing cost, casing 1 intensity is higher, and life is longer, promotes user experience. Of course, the weight block limiting portion 171 may also be a weight block limiting rib separately disposed in the weight block mounting groove 17, and the height of the weight block limiting rib is the same as the bottom height of the rotary clamping groove 18.

In one embodiment, the case 1 is further provided with a sealing ring fixing groove 180 around the outer circumference of the electrolytic bath 11, and a plurality of rotary clamping grooves 18 are formed on the inner side wall of the sealing ring fixing groove 180 along the circumferential direction; the sealing ring fixing groove 180 is used for installing an electrolysis sealing ring 300, and the electrolysis module 100 is screwed with the container with the purification cavity 201 through the rotary clamping groove 18 and sealed by pressing the electrolysis sealing ring 300.

Specifically, the counterweight mounting groove 17 is annular and is provided around the periphery of the electrolytic bath 11; the balancing weight 9 is ring shape, wholly pack into balancing weight mounting groove 17 in, with the shape looks adaptation of casing 1 for the whole ascending weight distribution in week of electrolysis module 100 is even, and the focus is more stable, installs the compactness moreover, reduces electrolysis module 100 volume, and the reduction space occupies, and portable and operation use promote user experience.

Specifically, as shown in fig. 1 to 3, 6 to 8, 11, 13 to 19, 23 and 24, the electrolysis module 100 further includes a bottom case 10, the bottom case 10 is fixedly connected to the bottom side of the casing 1 away from the electrolysis bath 11, and the balancing weight 9 is clamped and fixed between the casing 1 and the bottom case 10, so that the balancing weight 9 is fixedly and firmly installed, stable and reliable, is not easy to move and shake, has a better and stable center of gravity, is convenient for a user to use, and has better user experience.

In one embodiment, the bottom of the casing 1 has a casing fixing column 123, the bottom casing 10 further has a casing fixing column positioning slot 101, and the casing fixing column 123 is matched with the casing fixing column positioning slot 101 for installation and positioning; the bottom of the bottom shell 10 is provided with a bottom shell screw slot 102. When the device is installed, the balancing weight 9 is installed in the bottom shell 10, and a bottom shell fastening screw 103 penetrates through a bottom shell screw groove 102 to fixedly connect the shell 1 and the bottom shell 10 together; finally, bottom case silicone plugs 104 are installed in bottom case screw grooves 102 to seal bottom case screw grooves 102, thereby completing the assembly of electrolysis module 100. The bottom of bottom shell 10 still is provided with four support feet 105, and when electrolysis module 100 used alone, support foot 105 and mesa or basin contact, avoid bottom shell 10 bottom direct contact mesa or basin, effectively avoid bottom shell 10 bottom and mesa friction to lead to the problem that fish tail or bottom shell silica gel stopper 104 drop. After installation, the electrolysis module 100 may be placed in a water tank or other container for use; alternatively, the electrolysis module 100 can be installed at the bottom of the container having the purification chamber 201 for use, and in this case, the electrolysis module 100 can be directly installed at the bottom of the container having the purification chamber 201 through the housing 1 without the bottom shell 10 and the weight 9.

Specifically, drain pan 10 is provided with a plurality of balancing weight reference columns 106, for example 4, the top surface of balancing weight reference column 106 and the axial terminal surface butt of balancing weight 9 to compress tightly balancing weight 9 in the bottom side of casing 1, realize the axial positioning of balancing weight 9, prevent that balancing weight 9 from reciprocating, balancing weight 9 installs firmly stably in casing 1, and difficult removal rocks, and the focus is more stable, and convenience of customers uses, and user experience is better. In one embodiment, the top surface of the weight positioning post 106 presses the axial end surface of the weight 9 with an interference fit.

Specifically, the housing 1 further has an annular sidewall 19 surrounding the bottom side, the sidewall of the bottom case 10 is engaged with the annular sidewall 19 of the housing 1, and a mounting chamber 190 is defined between the bottom case 10 and the housing 1; the bottom surface of the bottom case 10 is further provided with a plurality of water filtering holes 107. The mounting cavity 190 hides the mounting structure at the bottom of the shell 1, so that the overall appearance is neat and attractive, the shell 1 and the bottom shell 10 are firmly, stably and reliably connected, and the service life is longer; water filtering hole 107 plays the effect of drainage, and the water that will get into in the installation cavity 190 when convenience of customers used electrolysis module 100 alone discharges, keeps clean health, also makes things convenient for water to get into the air in installation cavity 190 and the discharge installation cavity 190, makes things convenient for electrolysis module 100 to sink to basin or other container bottoms, promotes the user and uses experience. In a specific embodiment, the outer edge of the sidewall of the bottom shell 10 is provided with a positioning rib structure, and the bottom shell is connected with the shell 1 in a structure of being folded upwards and downwards, so that the problem of section difference caused by deformation of the bottom shell 10 or the shell 1 is avoided.

Specifically, a lead groove 108 is formed on the annular side wall 19 of the shell 1 and/or the side wall of the bottom shell 10, and the power cord 4 penetrates into the mounting chamber 190 through the lead groove 108 and is electrically connected with the electrolytic sheet 2; the power cord 4 is provided with an inner blocking rib 44 and an outer blocking rib 45 which extend along the radial direction at intervals, and the inner blocking rib 44 and the outer blocking rib 45 respectively abut against two ends of the lead groove 108 to prevent the power cord 4 from moving along the length direction. Interior fender muscle 44 and outer fender muscle 45 cooperate in the inside and outside face of lead wire groove 108 respectively, play the effect of location, realize fixed to power cord 4's location, prevent the flexible safety problem that leads to of power cord 4 atress in the use, and the security is high, and power cord 4 and 3 tail ends of conducting rod are not fragile with power cord 4's connecting portion, and life is longer, and user experience is better.

As shown in fig. 24 to 26, another embodiment of the present invention further provides a food purifying apparatus, which includes a purifying chamber housing 200 and the electrolysis module 100 provided by any of the above embodiments, wherein the purifying chamber housing 200 has a purifying chamber 201 and an opening 203 communicated with the purifying chamber 201. The electrolysis module 100 is detachably connected to the bottom of the purification chamber housing 200 and is communicated with the purification chamber 201, so that the electrolysis module 100 at least has a first use state installed at the bottom of the purification chamber housing 200 and a second use state accommodated in the purification chamber 201 in a pick-and-place manner from the opening 203. Electrolytic module 100 and purification chamber casing 200 adopt split type structure, realize swift formula combination, the installation is dismantled conveniently, electrolytic module 100 both can install and use in purification chamber casing 200 bottom, also can get to put the ground holding and use in purifying chamber 201, can also arrange domestic basin or other containers in alone and use, easy operation, it is nimble convenient to use, do not receive the space restriction, save space, therefore, the clothes hanger is strong in practicability, fully provided user's user demand, effectively promoted user experience.

Specifically, the food purifying apparatus may further include a base 400, a control assembly 500 is disposed in the base 400, and the electrolysis module 100 is electrically connected to the control assembly 500 through a power cord 4. Purification chamber casing 200 adopts split type structure with base 400, and purification chamber casing 200 can support to be connected in base 400 top, also can place and use in other optional positions, and it is more nimble convenient to use.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

Claims (10)

1. An electrolysis module, characterized in that it comprises:

a housing provided with an electrolytic cell;

the electrolytic sheets are arranged in the electrolytic cell in parallel at intervals;

the head ends of the conducting rods penetrate into the electrolytic cell from the bottom of the shell and are respectively electrically connected with one electrolytic sheet, and the tail ends of the conducting rods are positioned outside the electrolytic cell;

the power line is electrically connected with the tail end of the conducting rod; and

the sealing structure can form a waterproof sealing space, and the waterproof sealing space is used for sealing and isolating the tail end of the conducting rod and the tail end of the conducting rod from the outside.

2. An electrolysis module according to claim 1,

the sealing structure comprises a glue pouring groove, the glue pouring groove is formed in the bottom of the shell, the power line is located in the glue pouring groove, and the tail end of the conducting rod is connected with the tail end of the conducting rod and is filled with pouring glue to be sealed.

3. An electrolysis module according to claim 2,

the sealing structure further comprises a sealing sleeve, and the sealing sleeve is sleeved outside the glue pouring groove and seals the glue pouring notch.

4. An electrolysis module according to claim 2,

the electrolytic module also comprises a luminous element, an electric connection part of the luminous element is positioned in the glue pouring groove and is electrically connected with the power line, and a through hole communicated with the electrolytic tank is formed in the glue pouring groove;

the sealing structure also comprises a lampshade, and the lampshade extends into the electrolytic cell from the through hole and seals the through hole; the light emitting part of the light emitting part is arranged in the lampshade, the electric connection part of the light emitting part is fixedly connected with the bottom of the shell, and the lampshade is tightly pressed and fixed at the bottom of the shell.

5. An electrolysis module according to claim 2,

a connecting through hole is further formed in the glue pouring groove, and the electric connection part of the light-emitting piece is correspondingly provided with an electric connection hole; the head end of the conducting rod sequentially penetrates through the electric connecting hole and the connecting through hole and is fixedly connected with the electrolytic sheet, and the tail end of the conducting rod tightly presses and fixes the light-emitting piece at the bottom of the shell and is electrically connected with the light-emitting piece.

6. An electrolysis module according to any one of claims 1 to 5,

the electrolytic sheet comprises a first electrolytic sheet and a second electrolytic sheet with opposite polarities, and the second electrolytic sheet is positioned above the first electrolytic sheet; a first binding post and a second binding post are arranged in the electrolytic cell, the height of the first binding post is smaller than that of the second binding post, a wiring sinking table is arranged at the top of the second binding post, and the top surface of the wiring sinking table is flush with that of the first binding post;

the conducting rod penetrates through the first wiring terminal and is fixedly connected with the first electrolytic sheet, the first electrolytic sheet is provided with a first abdicating hole abdicating the top of the second wiring terminal, and the first electrolytic sheet is supported and fixed on the first wiring terminal and the top surface of the wiring sinking platform;

and the other conducting rod penetrates through the second wiring terminal and the second electrolytic sheet which is fixedly connected with the second wiring terminal, the second electrolytic sheet is supported and fixed on the top surface of the second wiring terminal, and the second electrolytic sheet is provided with a second yielding hole which passes through the first wiring terminal and is used for the head end of the conducting rod.

7. An electrolysis module according to claim 6,

the electrolytic module also comprises an insulated electrolytic sheet separator, and the electrolytic sheet separator is clamped and fixed between the first electrolytic sheet and the second electrolytic sheet;

or, the top of first terminal is provided with the protrusion in the wiring location muscle of top surface, first electrolysis piece is equipped with the confession the hole of dodging that wiring location muscle passes through, just the top surface of wiring location muscle with the top surface parallel and level of second terminal, second electrolysis piece supports to be fixed in the second terminal with the top surface of wiring location muscle, with first electrolysis piece with form insulating clearance between the second electrolysis piece.

8. An electrolysis module according to claim 6,

the electrolysis module still includes the filter screen, the filter screen install in the electrolysis trough, the filter screen is located electrolysis piece top and shield the electrolysis piece.

9. An electrolysis module according to claim 8,

the electrolytic cell is also internally provided with a positioning column and a filter screen fixing column coaxially arranged in the positioning column, the electrolytic sheet is also provided with a positioning hole, and the filter screen is provided with a filter screen fixing part and an electrolytic sheet limiting rib;

the reference column passes the locating hole of electrolysis piece, the filter screen fixed part insert in the reference column with filter screen fixed column fixed connection, the spacing muscle of electrolysis piece with the electrolysis piece butt is in order to right the electrolysis piece is installed the location.

10. A food purification apparatus comprising a purification chamber housing having a purification chamber and an electrolysis module according to any one of claims 1 to 9;

the electrolysis module is detachably connected to the bottom of the purification cavity shell and communicated with the purification cavity, or the electrolysis module can be accommodated in the purification cavity in a picking and placing mode.

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