CN213153831U - Food purification electrolyzer and food purifying machine - Google Patents

Abstract

The utility model discloses a food purification electrolyzer, which comprises a bottom shell, wherein an electrolytic sheet assembly is arranged in the bottom shell; the glue filling area is filled with glue; one end of the load output lead is electrically connected with the electrolytic sheet assembly, the other end of the load output lead is externally connected with a power supply, and one end of the load output lead, which is electrically connected with the electrolytic sheet assembly, is positioned in the glue filling area and is wrapped by the glue; and the bracket is adjacent to the glue pouring area, one end of the electrolytic sheet assembly is arranged on the bracket, and the bracket is fixedly connected with the bottom shell. The utility model also discloses a net machine of eating, including controlling means and foretell electrolyzer, the electrolyzer is connected with controlling means electricity through load output wire. The utility model provides a food purification electrolyzer and clean machine of eating passes through the support mounting with the electrolysis piece subassembly on the drain pan, has guaranteed the steadiness of connecting between the electrolysis piece, makes it be convenient for carry out the circuit intercommunication simultaneously to guarantee the stability of circuit switch-on, made things convenient for the assembly simultaneously, improved the qualification rate of product.

Description

Food purification electrolyzer and food purifying machine

Technical Field

The utility model belongs to the food purification field, concretely relates to food purification electrolyzer and net machine of eating.

Background

With the progress of society and the improvement of living standard, people pay more and more attention to the safety problem of diet. However, most fruits and vegetables sold in the market have pesticide residues, and tableware containing the fruits and vegetables are easy to breed bacteria, so that potential harm is brought to the health of people. Therefore, how to remove these toxic substances becomes a topic of interest.

At present, most families reduce the content of residual pesticides in fruits and vegetables by simple soaking and washing, but the effect is limited; while the dishes are essentially simply rinsed with water, with essentially no sterilization step.

The food purifier is equipment for processing pesticide residues on food materials, and at present, the food purifier has two food material purification modes, wherein one mode is to achieve the disinfection purpose through the oxidation of ozone, and the other mode is to decompose pesticides in fruits and vegetables by utilizing the water electrolysis technology.

The ozone oxidation can kill microbes such as bacteria and decompose organic matters such as pesticides in a relatively short time, thereby playing a role in disinfection; moreover, the ozone can be automatically decomposed into oxygen, and the method has the characteristics of no pollution, no residue and the like.

The water electrolysis technology is stronger than ozone oxidation capacity, the food purifier realizes water electrolysis through an electrolyzer placed in water, the electrolyzer can electrolyze water to generate hydroxyl radicals (-OH), destroy the outer walls of bacteria and viruses, enable the bacteria and viruses to lose original activity, quickly capture covalent bond electrons of organic compound molecular chains such as pesticides and hormones, and convert the covalent bond electrons into substances such as carbon dioxide and water which are harmless to human bodies, thereby removing pesticide residues. The water electrolysis technology is a green and clean oxidation technology. Therefore, the technology of electrolyzing water to purify food materials is widely used in the field of food purifiers.

The existing electrolyzer installs the electrolytic sheet on the bottom case, then connects the power cord, if there are other electronic components (such as lamp plate) to assemble in order, in the narrower installing zone of bottom case, the operation is very inconvenient, especially the electrolytic sheet is under the condition that uses the screw assembly, the assembly is troublesome, need with the electrolytic sheet assembly screw in narrow and small installing zone, easy and other spare parts emergence interference on the bottom case in the assembling process. If the electrolytic sheet does not adopt a screw assembly mode, the assembly difficulty is greatly increased, and if the electrolytic sheet is installed insecurely, the defective rate is greatly increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a food purification electrolyzer and food purification machine to solve at least one technical problem among the above-mentioned technical problem.

The utility model discloses the technical scheme who adopts does:

a food purification electrolyzer comprises a bottom shell, wherein an electrolytic sheet assembly is arranged in the bottom shell; the glue filling area is filled with glue; one end of the load output lead is electrically connected with the electrolytic sheet assembly, the other end of the load output lead is externally connected with a power supply, and one end of the load output lead, which is electrically connected with the electrolytic sheet assembly, is positioned in the glue pouring area and is wrapped by glue; and the support is adjacent to the glue pouring area, one end of the electrolytic sheet assembly is arranged on the support, and the support is fixedly connected with the bottom shell.

Further, the drain pan includes drain pan body and with drain pan body integrated into one piece just upwards extend keep off the gluey muscle, the support with keep off gluey muscle and link firmly, just the drain pan body keep off gluey muscle and the support cooperation encloses into the encapsulating district.

Furthermore, the stop rubber rib is provided with a limit slot for limiting the bracket, the bracket is provided with a first side surface and a second side surface which are opposite in position, the limit slot is provided with a third side surface in clearance fit with the first side surface and a fourth side surface in clearance fit with the second side surface, at least one of the first side surface and the third side surface is an inclined surface, so that the gap between the first side surface and the third side surface is small in size, and at least one of the second side surface and the fourth side surface is an inclined surface, so that the gap between the second side surface and the fourth side surface is small in size.

Further, the drain pan still includes the anti-overflow is glued to be constructed, the anti-overflow is glued to be constructed including keeping off before gluey muscle and keep off gluey back muscle, keep off before gluey the muscle be located the support with between the encapsulating district, keep off before gluey muscle with keep off gluey back muscle cooperation and form and be used for the centre gripping groove of support.

Further, the glue overflow preventing structure further comprises a glue overflow area, the glue overflow area is adjacent to the glue blocking rear rib, the bottom shell further comprises a glue overflow blocking rib integrally formed with the bottom shell body and extending upwards, and the bottom shell body, the glue overflow blocking rib and the glue blocking rear rib are matched to form the glue overflow area.

Furthermore, overflow glue and keep off the muscle towards keeping away from keep off the direction expansion of gluey back muscle, just overflow glue keep off the both ends of muscle with keep off gluey muscle and link to each other.

Furthermore, the bottom shell is further provided with a supporting rib which is positioned below the electrolytic sheet assembly and used for supporting the electrolytic sheet assembly, the height of the supporting rib is the same as that of the overflowing glue blocking rib, and the supporting rib is far away from the glue filling area.

Furthermore, a limiting structure used for limiting the other end of the electrolytic sheet assembly is further arranged in the bottom shell, an opening is reserved between the limiting structure and the supporting rib, and a plurality of overflow holes are further formed in the bottom shell and located below the electrolytic sheet assembly.

Furthermore, the electrolytic sheet assembly comprises an anode electrolytic sheet and a cathode electrolytic sheet, the anode electrolytic sheet and the cathode electrolytic sheet are arranged at intervals in a staggered mode, the support is provided with an anode electrolytic sheet groove and a cathode electrolytic sheet groove, and the anode electrolytic sheet and the cathode electrolytic sheet are respectively inserted into the anode electrolytic sheet groove and the cathode electrolytic sheet groove and are respectively fixed on the support through fasteners.

The utility model also discloses a net machine of eating, including controlling means and foretell electrolyzer, the electrolyzer passes through load output wire with the controlling means electricity is connected.

Since the technical scheme is used, the utility model discloses the beneficial effect who gains does:

1. the utility model discloses passing through the support mounting with the electrolysis piece subassembly on the drain pan, having guaranteed the steadiness of connecting between the electrolysis piece, making arranging of electrolysis piece more orderly simultaneously, be convenient for carry out the circuit intercommunication to guarantee the stability of circuit switch-on, improved the qualification rate of product.

And, the utility model discloses well electrolyzer surrounds load output wire and electrolyte piece subassembly's link in the encapsulating intracavity, and after the encapsulating, load output wire and electrolyte piece subassembly's link is wrapped up by gluing to realized eating the effect of material purification and the security performance of net edible machine with the isolation of water and food.

In addition, the electrolyte piece subassembly is through the setting of support adjacency encapsulating district, compares in direct technical scheme who installs electrolyte piece subassembly in the drain pan through the screw, has made things convenient for the assembly, has avoided in the assembling process and has taken place to interfere with all the other spare parts in the encapsulating district, has promoted assembly efficiency.

2. As an embodiment of the present invention, the bottom casing includes the bottom casing body and with the fender glue muscle that bottom casing body integrated into one piece and upwards extend, the support with keep off the glue muscle and link firmly, just the bottom casing body keep off the glue muscle and reach the support cooperation encloses into the encapsulating district. The encapsulating district is formed by support and fender gluey muscle cooperation, compares in the adoption have certain space in order to form the independent piece in encapsulating district to with the technical scheme of independent piece installation to the drain pan, keep off gluey muscle and drain pan body integrated into one piece, save and kept off the sealed between gluey muscle and the drain pan body, form the encapsulating district through drain pan body, fender gluey muscle, support cooperation, realized a multi-purpose, reduced the structural component of complete machine, reduced manufacturing cost and assembly cost.

3. As an optimal implementation mode of the utility model, the drain pan still includes the anti-overflow is glued to be constructed, the anti-overflow is glued to be constructed including keeping off the preceding muscle of glue and keeping off the muscle behind the glue, keep off before the glue the muscle be located the support with between the encapsulating district, keep off before the glue the muscle with keep off behind the glue muscle cooperation form and be used for the centre gripping groove of support. Through setting up muscle before keeping off the glue and keeping off the back muscle of gluing, can reduce the injecting glue in-process colloid as far as and flow to the encapsulating district outward between support and the drain pan body, make overflow glue route tortuous, seal, show to improve the excessive gluey situation. Meanwhile, the glue blocking front rib and the glue blocking rear rib are matched to form a clamping groove for clamping the support, and the support is positioned and fixed.

4. As an optimal implementation manner of the utility model, the glue-overflow preventing structure still includes the glue-overflow district, the glue-overflow district with keep off and glue the back muscle and adjoin, the drain pan still include with drain pan body integrated into one piece and the upwards excessive glue that extends keeps off the muscle, just the drain pan body overflow glue keep off the muscle and reach keep off and glue the back muscle cooperation and form the glue-overflow district of gluing. If a small amount of colloid overflows from the glue blocking rear ribs in the glue injection process, the overflowing colloid accumulates in the glue overflowing area due to the glue overflowing area, and the situation that the colloid flows out to block a fluid through hole in the bottom shell is avoided.

Furthermore, the glue overflowing blocking rib expands towards the direction far away from the glue blocking rear rib, and two ends of the glue overflowing blocking rib are connected with the glue blocking rib, so that the area of the glue overflowing area is as large as possible, more glue is contained, the glue overflowing area is prevented from being filled with glue, overflowing from the glue overflowing area, and the fluid through hole is blocked.

5. As a preferred embodiment of the utility model, the electrolyte piece assembly includes positive pole electrolytic sheet and negative pole electrolytic sheet, positive pole electrolytic sheet and negative pole the staggered interval arrangement of electrolytic sheet, the support is provided with positive pole electrolytic sheet groove and negative pole electrolytic sheet groove, positive pole electrolytic sheet with the negative pole electrolytic sheet is inserted respectively into positive pole electrolytic sheet groove with in the negative pole electrolytic sheet groove to be fixed in respectively through the fastener the support. The electrolytic sheet groove can play a role in coarse positioning in the installation process of the electrolytic sheet, is favorable for the quick insertion of the electrolytic sheet, and improves the assembly efficiency. And the relative position of the anode of the electrolytic sheet and the cathode of the electrolytic sheet can be ensured by arranging the electrolytic sheet groove, and the stability of electric connection after electrification is ensured.

6. The utility model also provides a general the food purification electrolyser is applied to the technical scheme of net machine of eating, including controlling means and foretell electrolyser, the electrolyser passes through load output wire with the controlling means electricity is connected. The electrolysis piece passes through the support mounting on the drain pan of electrolyser, makes the connection between the electrolysis piece more firm, has guaranteed the stability of circuit, and then has guaranteed the stability and the reliability of net food machine. The control device can charge the electrolyzer, control the running state of the electrolyzer and select articles to be purified (such as meat, fruits and vegetables, five cereals, tableware and the like), so that a user is assisted to realize personalized selection of purifying different food material pollution residues, and the user experience is enjoyed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the application and not to limit the invention. In the drawings:

FIG. 1 is an exploded view of the interior of the electrolyzer in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of the electrolyzer in accordance with an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the bottom case according to an embodiment of the present invention;

FIG. 4 is a top view of the interior of the electrolyzer in accordance with an embodiment of the present invention;

FIG. 5 is a sectional view taken along line A-A of FIG. 4;

FIG. 6 is a sectional view taken along line B-B of FIG. 4;

FIG. 7 is a cross-sectional view taken along line C-C of FIG. 4;

fig. 8 is a schematic structural view of one surface of the bracket according to an embodiment of the present invention;

fig. 9 is a schematic structural view of another side of the bracket according to an embodiment of the present invention;

fig. 10 is a schematic structural view of the food cleaning machine according to an embodiment of the present invention;

wherein:

1 an electrolyzer;

2, a bottom shell; 21 a bottom shell body; 211 is open; 212 overflow holes; 22 glue blocking ribs; 221 a third side; 222 a fourth side; 223 a snap groove; 23 blocking the rubber front rib; 24 blocking the rubber rear rib; 25 a clamping groove; 26 glue overflow area; 27, overflowing glue blocking ribs; 28 support ribs; 29, a limiting structure;

3 an electrolyte sheet assembly; 31 an anode electrolyte sheet; 32 cathode electrolyte sheets;

4, supporting the bracket; 41 a first side; 42 a second side; 43 anode electrolytic sheet groove; 44 cathode electrolyte sheet cell; 45 screw holes; 46, bracket buckling; 47 a fastener;

5, a glue pouring area;

6 load output leads;

7 a control device; 71 a housing; 72 mounting area.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In addition, in the description of the present invention, it is to be understood that the terms "top", "bottom", "inside", "outside", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1-9, a food purification electrolyzer 1 comprises a bottom case 2, an electrolytic cell assembly 3 is arranged in the bottom case 2; the glue pouring area 5 is filled with glue; a load output lead 6, wherein one end of the load output lead 6 is electrically connected with the electrolytic sheet assembly 3, the other end of the load output lead is externally connected with a power supply, and one end of the load output lead 6, which is electrically connected with the electrolytic sheet assembly 3, is positioned in the glue filling area 5 and is wrapped by glue; and the support 4 is adjacent to the glue pouring area 5, one end of the electrolytic sheet assembly 3 is arranged on the support 4, and the support 4 is fixedly connected with the bottom shell 2.

Compare in direct with install electrolyte piece subassembly 3 the electrolyser 1 the technical scheme of drain pan 2, the utility model discloses a support 4 will electrolyte piece subassembly 3 install in drain pan 2 makes electrolyte piece subassembly 3 arranges more in order, the position of electrolyte piece subassembly 3 more adds the correspondence, conveniently carries out circuit connection, simultaneously, support 4 makes connection between the electrolyte piece subassembly 3 is more firm.

In addition, the electrolyte sheet assembly 3 is arranged on the bottom shell 2 by utilizing the support 4, so that the assembly difficulty of the electrolyte sheet assembly 3 is greatly reduced, the interference of other parts in the glue pouring area 5 in the assembly process of the electrolyte sheet assembly 3 is avoided, the assembly efficiency is greatly improved, and the qualification rate of products is improved.

It should be noted that the utility model discloses right with support 4 with the mode that drain pan 2 linked firmly does not specifically restrict, support 4 with the connected mode of drain pan 2 can adopt detachable connected mode, like buckle connection, screw connection etc. with the convenience will support 4 is pulled down and is cleared up, is maintained. Of course, the connection between the support 4 and the bottom shell 2 may also be non-detachable, such as by welding.

As shown in fig. 2-4, as a preferred embodiment of the present invention, the bottom casing 2 includes a bottom casing body 21 and a glue blocking rib 22 extending upwards and integrated with the bottom casing body 21, the support 4 is fixedly connected with the glue blocking rib 22, and the bottom casing body 21, the glue blocking rib 22 and the support 4 are matched to form the glue filling area 5. The glue blocking rib 22 and the bottom shell body 21 are integrally formed, so that the joint of the glue blocking rib 22 and the bottom shell body 21 is sealed, and extra sealing between the glue blocking rib 22 and the bottom shell body 21 is omitted. In addition, the bottom shell body 21, the glue blocking ribs 22 and the support 4 are matched to form the glue pouring area 5, so that the multipurpose effect is realized, the structural components of the whole machine are reduced, and the manufacturing cost and the assembly cost are reduced.

Of course, the glue filling area 5 may also be formed by an independent part having a certain space and being independent of the bottom case 2, and the independent part is mounted to the bottom case 2, so as to implement separate processing and manufacturing of the bottom case 2 and the independent part, and reduce the manufacturing difficulty.

The utility model discloses it is right support 4 with the mode that keeps off that the gluey muscle 22 links firmly does not do specifically and restricts, and it contains but not limited to the condition enumerated in the following embodiment:

example 1: the support 4 is connected with the glue blocking rib 22 through screws. The screw connection mode has simple structure, lower cost and fastening connection.

Example 2: as a preferred embodiment, as shown in fig. 2-3 and fig. 9, the bracket 4 is connected to the glue blocking rib 22 by a snap, bracket snaps 46 are disposed at two ends of the bracket 4, and a snap groove 223 is disposed at a position corresponding to the glue blocking rib 22. The mode of buckle connection makes support 4 with it is more convenient to keep off the block of gluing muscle 22 and break away from, is convenient for the dismantlement of support 4, and avoided support 4 with keep off all trompils on the gluing muscle 22, lead to intensity reduction or take place to overflow and glue.

Of course, the bracket 4 and the glue blocking rib 22 can also be connected in an undetachable manner such as welding, so as to reduce the connecting gap and avoid the overflow of the glue in the glue pouring area 5.

It should be noted that, when the bracket 4 is fixedly connected to the rubber stopper 22, the bracket 4 is fixedly connected to the bottom case 2, and there is no need to add another connection between the bracket 4 and the bottom case 2.

As shown in fig. 3 and 7-9, the glue blocking rib 22 is formed with a position-limiting slot for limiting the position of the bracket 4, the bracket 4 has a first side surface 41 and a second side surface 42 which are opposite, the position-limiting slot has a third side surface 221 which is in clearance fit with the first side surface 41 and a fourth side surface 222 which is in clearance fit with the second side surface 42, at least one of the first side surface 41 and the third side surface 221 is an inclined surface, so that the gap between the first side surface 41 and the third side surface 221 is large at the top and small at the bottom; at least one of the second side 42 and the fourth side 222 is a bevel so that the gap between the second side 42 and the fourth side 222 is large at the top and small at the bottom.

The support 4 with the clearance of spacing slot fitting surface is big-end-up, right the support 4 insert and form the guide effect, it is convenient the installation location of support 4 further improves assembly efficiency.

As an example of this embodiment, as shown in fig. 8 to 9, the first side surface 41 and the second side surface 42 of the bracket 4 are inclined surfaces, the upper end of the first side surface 41 and the upper end of the second side surface 42 are inclined surfaces, and the lower end of the first side surface 41 and the lower end of the second side surface 42 are inclined surfaces, so that the gap between the first side surface 41 and the third side surface 221 is large in the upper part and small in the lower part, and the gap between the second side surface 42 and the fourth side surface 222 is large in the upper part and small in the lower part, which plays a role in guiding and positioning the insertion of the bracket 4.

Of course, the third side 221 and the fourth side 222 of the position-limiting slot may be disposed as inclined planes, the upper ends of the third side 221 and the fourth side 222 are lower surfaces of the inclined planes, and the lower ends of the third side 221 and the fourth side 222 are upper surfaces of the inclined planes, so that the bracket 4 can be conveniently inserted into the position-limiting slot.

As a preferred example of the present embodiment, as shown in fig. 7, the first side surface 41 and the second side surface 42 of the bracket 4 are inclined surfaces, upper ends of the first side surface 41 and the second side surface 42 are upper surfaces of the inclined surfaces, lower ends of the first side surface 41 and the second side surface 42 are lower surfaces of the inclined surfaces, the third side surface 221 and the fourth side surface 222 of the position limiting slot are also inclined surfaces, upper ends of the third side surface 221 and the fourth side surface 222 are lower surfaces of the inclined surfaces, and lower ends of the third side surface 221 and the fourth side surface 222 are upper surfaces of the inclined surfaces. The first side surface 41, the second side surface 42, the third side surface 221 and the fourth side surface 222 are all set to be inclined surfaces, so that the matching of the bracket 4 and the limiting slot is more reasonable, the mounting of the bracket 4 is more convenient, and the assembly efficiency is improved.

As shown in fig. 3 and 5, the bottom case 2 further comprises an anti-glue-overflow structure, the anti-glue-overflow structure comprises a glue-blocking front rib 23 and a glue-blocking rear rib 24, the glue-blocking front rib 23 is located between the support 4 and the glue-pouring area 5, the glue-blocking front rib 23 and the glue-blocking rear rib 24 are matched to form a clamping groove 25 for clamping the support 4.

Keep off before gluey muscle 23 with keep off setting up of gluing back muscle 24, on the one hand can make the route of overflowing gluing become tortuous, seal, block at the injecting glue in-process, the colloid in encapsulating district 5 passes through support 4 with gap between the drain pan body 21 flows extremely encapsulating district 5 outside, on the other hand, keep off before gluey muscle 23 with keep off behind the gluey muscle 24 cooperation formation and be used for the centre gripping groove 25 of support 4, right support 4 plays location and fixed effect, prevents support 4 takes place the displacement.

Preferably, the glue blocking front rib 23 and the glue blocking rear rib 24 are integrally formed with the bottom case 2, so that the assembling process is omitted, and the assembling efficiency is further improved.

As shown in fig. 3 and 5, the glue overflow preventing structure further includes a glue overflow area 26, the glue overflow area 26 is adjacent to the glue blocking rear rib 24, the bottom case 2 further includes a glue overflow blocking rib 27 integrally formed with the bottom case body 21 and extending upward, and the bottom case body 21, the glue overflow blocking rib 27 and the glue blocking rear rib 24 are matched to form the glue overflow area 26.

If a small amount of colloid still overflows from the glue blocking rear ribs 24 in the glue injection process, the overflowing colloid is accumulated in the glue overflow area 26, and the colloid is prevented from flowing into the bottom case 2 to block fluid through holes on the bottom case 2, so that the electrolytic effect of the electrolyzer 1 is reduced.

Further, as shown in fig. 3, the glue overflow blocking rib 27 expands in a direction away from the glue blocking rear rib 24, and both ends of the glue overflow blocking rib 27 are connected to the glue blocking rib 22.

The glue overflow blocking rib 27 is away from the glue blocking rear rib 24 and expands to increase the area of the glue overflow area 26, so that the glue overflow area 26 can contain more glue, and further the glue is prevented from flowing into the bottom shell body 21.

It should be noted that the utility model discloses it is right the expansion form that overflows to glue and keep off muscle 27 does not do specifically and restricts, it can be with forms such as arc, rectangle to keeping away from keep off the direction expansion of gluing back muscle 24, make it is as big as possible to overflow the area in gluey district 26.

As shown in fig. 2-5, the bottom case 2 is further provided with a support rib 28 located below the electrolyte sheet assembly 3 for supporting the electrolyte sheet assembly 3, and the support rib 28 and the excessive glue blocking rib 27 jointly support the electrolyte sheet assembly 3, so that the electrolyte sheet assembly 3 is more firmly fixed and positioned.

Furthermore, the height of the support rib 28 is the same as that of the glue overflow blocking rib 27, and the support rib 28 is far away from the glue filling area 5. The supporting ribs 28 and the glue overflowing blocking ribs 27 have the same height to support the electrolyte sheet assemblies 3 together, so that the stress of the electrolyte sheet assemblies 3 is more reasonable and uniform, and the deformation caused by the stress concentration at the connecting positions of the electrolyte sheet assemblies 3 and the support 4 due to the fact that the tail parts of the electrolyte sheet assemblies 3 are not supported after long-term use is avoided.

As shown in fig. 2-5, a limiting structure 29 for limiting the other end of the electrolytic cell assembly 3 is further disposed in the bottom case 2, an opening 211 is left between the limiting structure 29 and the support rib 28, and a plurality of overflow holes 212 are further disposed on the bottom case 2, and the overflow holes 212 are located below the electrolytic cell assembly 3.

The arrangement of the limiting structure 29 avoids the displacement of the electrolytic sheet assembly 3 in the direction far away from the glue filling area 5, and further positions and fixes the electrolytic sheet assembly 3, so that the assembly of the electrolytic sheet assembly 3 is facilitated, and the assembly efficiency is improved. An opening 211 is reserved between the limiting structure 29 and the supporting rib 28, so that water flowing is facilitated, water is prevented from being accumulated at the opening, and residues (such as vegetable leaves and impurities in food materials) are prevented from being accumulated to influence the electrolysis effect of the electrolysis sheet assembly 3. The overflow hole 212 is arranged to further discharge water from the electrolyzer 1, so as to prevent water accumulation in the bottom case 2.

Preferably, as shown in fig. 2 to 4, the overflow holes 212 are located below the electrolyte sheet assembly 3 and uniformly arranged around the electrolyte sheet assembly 3 on the bottom case 2, and the uniformly arranged overflow holes 212 improve the drainage effect so that water around the electrolyte sheet assembly 3 can be directly drained from the overflow holes 212.

As shown in fig. 1 and fig. 6 to 9, as an embodiment of the present invention, the electrolytic cell assembly 3 includes an anode electrolytic sheet 31 and a cathode electrolytic sheet 32, the anode electrolytic sheet 31 and the cathode electrolytic sheet 32 are alternately arranged, the bracket 4 is provided with an anode electrolytic sheet groove 43 and a cathode electrolytic sheet groove 44, and the anode electrolytic sheet 31 and the cathode electrolytic sheet 32 are respectively inserted into the anode electrolytic sheet groove 43 and the cathode electrolytic sheet groove 44 and are respectively fixed to the bracket 4 by fasteners 47.

The anode electrolyte sheet groove 43 and the cathode electrolyte sheet groove 44 can play a role in coarse positioning in the installation process of the anode electrolyte sheet 31 and the cathode electrolyte sheet 32, and the assembly efficiency is improved. Moreover, the relative positions of the anode electrolytic sheet 31 and the cathode electrolytic sheet 32 can be ensured by arranging the anode electrolytic sheet groove 43 and the cathode electrolytic sheet groove 44, and the stability of electric connection after electrification is ensured.

It should be noted that the structure type of the fastening member 47 in this embodiment is not particularly limited, and as a preferred example, as shown in fig. 6, the fastening member 47 is a screw, the bracket 4 is provided with a screw hole 45, and the fastening member 47 passes through the screw hole 45 to fix the anode electrolytic sheet 31 and the cathode electrolytic sheet 32 on the bracket 4. Of course, the fasteners 47 may have other configurations, such as bolts.

As shown in fig. 10, the utility model also discloses a food cleaning machine, which comprises a control device 7 and the electrolyzer 1, wherein the electrolyzer 1 is electrically connected with the control device 7 through the load output lead 6.

The food purification electrolyzer 1 is applied to the food purifying machine, so that the food purifying machine is more stable in work, low in assembly difficulty and convenient to assemble, and the assembly efficiency and the qualification rate of the food purifying machine are improved.

Furthermore, the control device 7 comprises a housing 71 and a power supply unit disposed in the housing 71, the power supply unit supplies power to the electrolyzer 1, the housing 71 has a recessed mounting area 72, the electrolyzer 1 is detachably mounted on the mounting area 72, and at least a partial area of the electrolyzer 1 is located in the mounting area 72 in a state that the electrolyzer 1 is mounted on the mounting area 72.

The recessed setting of installing zone 72 helps electrolyzer 1 accomodate extremely behind casing 71, reduce the space that net machine took has saved the accommodation space, has promoted user experience, electrolyzer 1 at least part region falls into in the installing zone 72, further realized both assembly backs net machine's miniaturization is eaten.

As a preferred embodiment of the present invention, the back of the casing 71 is provided with a hook hole to facilitate the hanging type storage of the control device 7, so as to hang the control device 7 on a wall or other vertical surface, thereby saving the storage space.

It should be noted that the present invention is not limited to the installation method of the electrolyzer 1 and the housing 71, but the electrolyzer 1 may be fixedly installed in the installation area 72 of the housing 71 in order to prevent the electrolyzer 1 from falling off from the control device 7 when the electrolyzer is suspended and stored, and the installation method of the electrolyzer 1 includes, but is not limited to: snap fit, magnetic attraction, and the like. As a preferred embodiment, the electrolyzer 1 is attracted to the mounting area 72 through a magnet, and is magnetically attracted, so that the connection between the electrolyzer 1 and the housing 71 is simpler, the operation by a user is facilitated, and the user experience is improved.

Of course, the storage mode of the control device 7 in the present invention is not limited to the above-mentioned suspension type, and the back of the casing 71 may be provided with an inclined support, or the back of the casing 71 may be provided with a flat surface, so as to stably place the control device 7 on a horizontal plane.

The utility model can be realized by adopting or using the prior art for reference in places which are not mentioned in the utility model.

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.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The food purification electrolyzer is characterized by comprising a bottom shell, wherein the bottom shell is internally provided with:

an electrolyte sheet assembly;

the glue filling area is filled with glue;

one end of the load output lead is electrically connected with the electrolytic sheet assembly, the other end of the load output lead is externally connected with a power supply, and one end of the load output lead, which is electrically connected with the electrolytic sheet assembly, is positioned in the glue pouring area and is wrapped by glue; and

the support is adjacent to the glue pouring area, one end of the electrolyte sheet assembly is mounted on the support, and the support is fixedly connected with the bottom shell.

2. The food purification electrolyzer of claim 1,

the bottom shell comprises a bottom shell body and a rubber blocking rib which is integrally formed with the bottom shell body and extends upwards;

the support is fixedly connected with the glue blocking rib, and the glue filling area is formed by the bottom shell body, the glue blocking rib and the support in a matched and enclosed mode.

3. The food purification electrolyzer of claim 2,

the limiting slot is used for limiting the bracket, the bracket is provided with a first side surface and a second side surface which are opposite in position, and the limiting slot is provided with a third side surface in clearance fit with the first side surface and a fourth side surface in clearance fit with the second side surface;

at least one of the first side face and the third side face is an inclined face, so that a gap between the first side face and the third side face is small in size at the top and small in size at the bottom; at least one of the second side and the fourth side is a slope so that a gap between the second side and the fourth side is large at the top and small at the bottom.

4. The food purification electrolyzer of claim 2,

the drain pan still includes anti-overflow and glues the structure, anti-overflow glues the structure including keep off before gluey muscle with keep off gluey back muscle, keep off before gluey muscle be located the support with between the encapsulating district, keep off before gluey muscle with keep off gluey back muscle cooperation formation and be used for the centre gripping groove of support.

5. The food purification electrolyzer of claim 4,

the glue overflow preventing structure further comprises a glue overflow area, and the glue overflow area is adjacent to the glue blocking rear rib;

the bottom shell further comprises an overflow glue blocking rib which is integrally formed with the bottom shell body and extends upwards, and the bottom shell body, the overflow glue blocking rib and the glue blocking rear rib are matched to form the glue overflow area.

6. The food purification electrolyzer of claim 5,

overflow glue and keep off the muscle towards keeping away from keep off the direction expansion of gluing back muscle, just overflow glue keep off the both ends of muscle with keep off the glue muscle and link to each other.

7. The food purification electrolyzer of claim 5,

the bottom shell is further provided with a supporting rib which is located below the electrolyte sheet assembly and used for supporting the electrolyte sheet assembly, the height of the supporting rib is the same as that of the glue overflowing blocking rib, and the supporting rib is far away from the glue pouring area.

8. The food purification electrolyzer of claim 7,

the bottom shell is also internally provided with a limiting structure used for limiting the other end of the electrolytic sheet assembly, an opening is reserved between the limiting structure and the supporting rib, and the bottom shell is also provided with a plurality of overflow holes which are positioned below the electrolytic sheet assembly.

9. The food purification electrolyzer of claim 1,

the electrolytic sheet assembly comprises an anode electrolytic sheet and a cathode electrolytic sheet, the anode electrolytic sheet and the cathode electrolytic sheet are arranged at intervals in a staggered mode, the support is provided with an anode electrolytic sheet groove and a cathode electrolytic sheet groove, and the anode electrolytic sheet and the cathode electrolytic sheet are respectively inserted into the anode electrolytic sheet groove and the cathode electrolytic sheet groove and are respectively fixed on the support through fasteners.

10. A food washer comprising control means and an electrolyser as claimed in any one of claims 1 to 9 electrically connected to said control means via said load output lead.

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