CN214339895U

CN214339895U - Eat material purifier and net machine of eating

Info

Publication number: CN214339895U
Application number: CN202023039565.0U
Authority: CN
Inventors: 朱泽春; 王猛
Original assignee: Joyoung Co Ltd
Current assignee: Joyoung Co Ltd
Priority date: 2020-12-16
Filing date: 2020-12-16
Publication date: 2021-10-08
Anticipated expiration: 2030-12-16

Abstract

The application discloses eat material purifier, wherein, eat material purifier and include casing, electrolyte piece subassembly and ozone diffusion piece, the casing includes the drain pan, install in the fixed plate of drain pan and install in the top cap of fixed plate, the top cap forms the working chamber with the fixed plate cooperation, the top cap has the through-hole of a plurality of and working chamber intercommunication, the electrolyte piece subassembly is located the working chamber, and the electrolyte piece subassembly is fixed in the fixed plate, and ozone diffusion piece is located the working chamber, and ozone diffusion piece is fixed in the fixed plate. The application also discloses a net machine of eating includes that above-mentioned edible material purifier still includes the host computer, is provided with the control unit and ozone generation unit in the host computer, and the electrolyte piece subassembly is connected with the control unit electricity, and ozone generation unit supplies ozone to ozone diffusion piece. The disclosed edible material purifier and food purifier of this application have light miniaturization, compact structure, practice thrift energy consumption, purifying effect good advantage.

Description

Eat material purifier and net machine of eating

Technical Field

The application relates to the technical field of food material purification, in particular to a food material purification device and a food purifying machine.

Background

With the social development and the improvement of living standard, the food safety problem is increasingly emphasized, especially at present, most fruits and vegetables adopt chemical fertilizers to supplement nutrition and pesticides to remove pests and pests, and part of organic toxicants still remain after the fruits and vegetables are mature. The residual toxic substances on the fruits and the vegetables cannot be thoroughly cleaned only by simple water cleaning treatment before the fruits and the vegetables are eaten, so that the food material purifying device with good sterilizing and disinfecting effects is popular among consumers.

The existing food material purifying device usually adopts an electrolysis device or ozone to purify food materials, but the purifying process is long, so that the food material purifying device with a single purifying mode can not meet the requirements of high efficiency, high speed and thorough disinfection and sterilization required by people. Moreover, some food material purification devices are unreasonable in structural design and poor in installation position of an electrolysis device, so that great pressure is brought to the light and small development of the food material purification devices, released purification ions cannot be sufficiently diffused in water, and food materials cannot be wrapped, so that the food materials cannot be purified to achieve the expected effect.

Based on the above problems in the prior art, it is urgently needed to invent a food material purifying device which has the advantages of light weight, small size, compact structure, excellent purifying effect, energy consumption saving and the like.

SUMMERY OF THE UTILITY MODEL

The application provides a food material purification device to solve at least one technical problem among the above-mentioned technical problem.

The food material purifying device provided by the application is realized through the following technical scheme:

the utility model provides an eat material purifier, includes casing, electrolyte piece subassembly and ozone diffusion piece, the casing include the drain pan, install in the fixed plate of drain pan and install in the top cap of fixed plate, the top cap with the fixed plate cooperation forms the working chamber, the top cap have a plurality of with the through-hole of working chamber intercommunication, the electrolyte piece subassembly is located the working chamber, just the electrolyte piece subassembly is fixed in the fixed plate, ozone diffusion piece is located the working chamber, just ozone diffusion piece is fixed in the fixed plate.

The food material purifying device provided by the application also has the following additional technical characteristics:

the electrolyte piece assembly is located above the ozone diffusion piece, a plurality of diffusion holes are formed in one side, facing the electrolyte piece assembly, of the ozone diffusion piece, and the ozone diffusion piece is located along the axial projection range of the working cavity and falls into the axial projection range of the working cavity.

The ozone diffusion piece is made of a bubbled stone, a gas homogenizing cavity is formed between the bubbled stone and the fixing plate in a matching mode, and the fixing plate is provided with a gas inlet joint communicated with the gas homogenizing cavity; or, the ozone diffusion piece is a shell, the inside of the shell is hollow so as to be communicated with the diffusion holes, the fixing plate is provided with an air inlet connector, and the shell is provided with an air inlet hole communicated with the air inlet connector and the inside of the shell.

A containing groove matched with the ozone diffusion piece is formed in the fixing plate in a concave mode, at least part of the ozone diffusion piece is arranged in the containing groove, and a diffusion gap is formed between the ozone diffusion piece and the electrolyte piece assembly; and/or the fixing plate is convexly provided with a supporting block for supporting the electrolyte sheet assembly, and the electrolyte sheet assembly is supported on the supporting block so as to form a diffusion gap between the ozone diffusion piece and the electrolyte sheet assembly.

The ozone diffusion piece is located along the axial projection range of working chamber outside the axial projection range of electrolyte piece subassembly edge working chamber, the fixed plate is equipped with air inlet joint, ozone diffusion piece has hollow inner chamber, intercommunication the inner chamber with air inlet joint's inlet port and intercommunication the inner chamber with a plurality of diffusion hole of working chamber.

One of the top cover and the fixed plate is provided with a buckle, the other of the top cover and the fixed plate is provided with a buckle position matched with the buckle, and the buckle is in clamping fit with the buckle position so as to detachably connect the top cover with the fixed plate.

The food material purifying device also comprises a connecting piece, the electrolytic cell assembly is fixed on the fixing plate through the connecting piece, and the connecting piece is of a structure made of conductive metal; the fixed plate is matched with the bottom shell to form a closed power supply cavity, and one end of the connecting piece extends into the power supply cavity; the power supply cavity is internally provided with a battery, or the connecting piece is externally connected with a power supply device.

The application also provides a food purifying machine which comprises the food purifying device; still include the host computer, be provided with control unit and ozone generation unit in the host computer, the electrolyte piece subassembly with the control unit electricity is connected, ozone generation unit is to ozone diffusion piece supplies ozone.

The food material purifying device further comprises a transmission line pipe, the host machine is provided with a pipe joint matched with the transmission line pipe, a wire and an ozone pipe are arranged in the transmission line pipe, the electrolytic cell assembly passes through the wire and the control unit is electrically connected, and the ozone diffusing piece passes through the ozone pipe and the ozone generating unit is communicated.

The bottom shell is matched with the fixing plate to form a power supply cavity, a wireless charging receiving coil and a battery electrically connected with the wireless charging receiving coil are arranged in the power supply cavity, and the electrolytic sheet assembly is electrically connected with the battery and wirelessly communicated with the control unit; the food material purifying device is arranged in the storage position, and the wireless charging receiving coil is in a working state of being matched with the wireless charging transmitting coil for charging.

Due to the adoption of the technical scheme, the technical effects obtained by the application are as follows:

1. among the edible material purifier that this application provided, through the component structure of casing and inciting somebody to action the electrolyte piece subassembly ozone diffusion piece all install in the fixed plate for eat material purifier structure compacter, reduced and eat material purifier's thickness, the volume is littleer, helps light miniaturized development. Moreover, the volume is reduced, so that the water required in the purification process is correspondingly reduced, and the water is saved. In addition, the disinfection and sterilization mode of the combination of electrolysis and ozone uses ozone with strong oxidizing property and hydroxyl radicals generated by electrolysis to wrap the surface of the food material at the same time, so that a better purification effect can be achieved.

2. As a preferred embodiment of this application, through ozone diffusion spare is towards the top diffusion hole is seted up to the position of electrolyte piece subassembly, warp the bubble that ozone diffusion spare diffusion goes out is in the in-process that rises through can will fall into when the electrolyte piece subassembly the piece impurity of edible material takes away, can effectively prevent the emergence of the jam short circuit condition between the electrolyte piece subassembly has guaranteed purifier's steady operation. Moreover, the installation structure that the projection of the electrolyte sheet assembly in the vertical direction can cover the projection of the ozone diffusion piece can reduce the installation area of the fixing plate for installing the electrolyte sheet assembly and the ozone diffusion piece, thereby being beneficial to the design of the food material purifying device in the horizontal direction to be more miniaturized and developed.

3. As a preferred embodiment of the present application, the ozone diffusing member is made of a bubble stone, and the ozone bubbles are diffused through a plurality of micro diffusion holes formed in the bubble stone, so that the dissolving amount of the bubbles is increased, the diffusion efficiency of ozone is improved, the ozone can rapidly coat the food material, and the purification efficiency of the food material is improved. Compared with the mode that a plurality of diffusion holes are formed in the fixing plate to diffuse ozone bubbles, the arrangement of the air bubble stones can reduce the number of holes formed in the fixing plate and reduce the sealing cost of the diffusion holes in the fixing plate.

4. As an preferred embodiment of this application, through the fixed plate indent be formed with the storage tank of ozone diffusion piece adaptation, made things convenient for the installation of ozone diffusion piece also is favorable to reducing the thickness of fixed plate to food material purifier's whole thickness has been reduced, food material purifier's miniaturized development is further promoted. Furthermore, a diffusion gap is left between the ozone diffusing member and the electrolytic sheet assembly, facilitating further diffusion of ozone after diffusion by the ozone diffusing member in the diffusion gap before passing through the electrolytic sheet assembly.

5. As a preferred embodiment of the present application, by locating the ozone diffusing member at the periphery of the fixing plate while the ozone diffusing member is not shielded by the electrolytic cell assembly in the vertical direction, bubbles diffused through the ozone diffusing member are not hindered by the electrolytic cell assembly during ascent, accumulation of bubbles on the electrolytic cell assembly is avoided, and rapid diffusion of bubbles is also facilitated.

6. As an preferred embodiment of this application, will the top cap with the fixed plate joint is connected and is realized removable, has both made things convenient for the top cap with the assembly of fixed plate has promoted assembly efficiency, has made things convenient for again and has dismantled the top cap, it is right to clear up the working chamber. Moreover, the clamping structure is simple, and the processing and the forming are easy. In addition, the power supply end for supplying power to the electrolytic sheet assembly is positioned in the closed power supply cavity, so that the contact between a power supply line and electrolytic water in the electrolytic process is prevented, the generation of harmful substances is reduced, and a power supply circuit is effectively protected.

7. As a preferred embodiment of the present application, by installing the wire electrically connecting the electrolytic cell assembly with the control unit and the ozone pipe for conveying ozone in the transmission line pipe, on one hand, the use and production cost of the fittings can be reduced, the connection of the food material purification apparatus and the main machine part is facilitated, and on the other hand, the problem that the length and the material are not synchronous when the line and the line are separately connected, resulting in too many lines or lines, and inconvenience in use and storage can be avoided.

Drawings

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

fig. 1 is an exploded view of a food material purifying apparatus with a bubbled stone provided by the present application;

fig. 2 is an assembly view of the food material purifying apparatus provided in the present application;

fig. 3 is a first cross-sectional view of the food material purifying apparatus provided in the present application;

fig. 4 is a second cross-sectional view of the food material purifying apparatus provided in the present application;

fig. 5 is an exploded view of the food material purifying apparatus with bubble vial provided in the present application;

fig. 6 is a third sectional view of the food material purifying device provided by the present application;

fig. 7 is a top view of a fixing plate of the food material purifying device provided in the present application;

fig. 8 is a bottom view of a fixing plate of the food material purifying device provided by the present application;

FIG. 9 is an assembly view of the diet washer provided in the present application;

FIG. 10 is a first cross-sectional view of a food washer provided herein;

FIG. 11 is a structural view of a main body of the food washer provided in the present application;

FIG. 12 is a second cross-sectional view of a diet cleaner provided herein;

fig. 13 is a cross-sectional view of a transmission line tube of a food washer provided herein.

Reference numerals:

1, a machine shell, 11 a bottom shell, 12 a fixing plate, 121 an air inlet joint, 122 an accommodating groove, 123 support ribs, 124 a rotary groove, 125 a bubble tube installing groove, 13 a top cover and 131 a rotary buckle;

2 working cavity, 21 gas equalizing cavity, 22 diffusion gap;

3 a power supply cavity;

4 an electrolyte sheet assembly;

5 air stones, 51 bubble tubes;

6, connecting pieces;

7 transmission line tube, 71 lead, 72 ozone tube;

8, a main engine, 81 electric control plates, 82 ozone generators and 83 connecting pipes;

9 wireless charging receiving coil, 91 wireless charging transmitting coil and 92 battery.

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 application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like are used in the positional or orientational relationship shown in the drawings for the purpose of convenience and simplicity of description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present invention.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; 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 this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means 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 application. 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.

Fig. 1 to 13 show a food material purifying apparatus, which comprises a casing 1, an electrolyte module 4 and an ozone diffusion member, wherein the casing 1 comprises a bottom shell 11, a fixing plate 12 mounted on the bottom shell 11, and a top cover 13 mounted on the fixing plate 12, the top cover 13 cooperates with the fixing plate 12 to form a working chamber 2, the top cover 13 has a plurality of through holes communicated with the working chamber 2, the electrolyte module 4 is located in the working chamber 2, the electrolyte module 4 is fixed on the fixing plate 12, the ozone diffusion member is located in the working chamber 2, and the ozone diffusion member is fixed on the fixing plate 12. The application provides a eat material purifier can be arranged in putting into flourishing water receptacle and carry out purification treatment to eating material. The water container may be a conventional container such as a household fruit and vegetable washing pool, a washing basin and the like, or may be a specially equipped water container, which is not limited herein.

During specific implementation, the bottom case 11 is fixed with the fixing plate 12, the electrolytic cell assembly 4 is fixed with the ozone diffusion piece on the fixing plate 12, an integrated working module with the fixing plate 12 as a base is formed, the difficulty of equipment installation is reduced, and the assembly efficiency is improved. The top cover 13 covers the electrolyte membrane module 4 and the ozone diffusing member and is mounted on the fixing plate 12, so that a working chamber 2 for accommodating the electrolyte membrane module 4 and the ozone diffusing member is formed between the top cover 13 and the fixing plate 12, the thickness of the food material purifying device is reduced, the structure of the food material purifying device is more compact, the size of the food material purifying device is smaller, and the light and small purification device is facilitated. Moreover, the volume is reduced, so that the water required in the purification process is correspondingly reduced, and the water is saved. The electrolytic cell module 4 and/or the ozone diffusing member and the fixing plate 12 can be fixed by fasteners such as screws, bolts, etc. in this application, and the installation stability is high. As a changeable implementation manner, the electrolyte sheet module 4 and/or the ozone diffusing member can be detachably fixed on the fixing plate 12 by a clamping structure, and the installation is convenient. Of course, the electrolytic cell module and/or the ozone diffusing member may be fixed to the fixing plate 12 in a non-detachable manner such as bonding, welding, or the like. In a preferred embodiment of the present application, the electrolyte membrane module 4 is detachably connected to the fixing plate 12 to facilitate cleaning, removal and replacement of the electrolyte membrane module 4.

When the food material purifying device operates, water molecules are electrolyzed by the electrolytic sheet assembly 4 to form hydroxyl free radicals with strong oxidability and ozone with strong oxidability diffused by the ozone diffusion piece is wrapped on the surface of food materials, and the content of the hydroxyl free radicals in water is greatly improved by the combined use of the electrolysis and the ozone, so that a better purifying effect can be achieved.

It should be noted that the present application does not specifically limit the positions of the ozone diffusing member and the electrolytic cell assembly 4 and the positional relationship therebetween, and any one of the following embodiments may be used:

the first embodiment is as follows:

in this embodiment, as shown in fig. 4, the electrolyte sheet assembly 4 is located above the ozone diffusing member, a plurality of diffusing holes are provided on a side of the ozone diffusing member facing the electrolyte sheet assembly 4, and a projection of the ozone diffusing member along the axial direction of the working chamber 2 falls within a projection range of the electrolyte sheet assembly 4 along the axial direction of the working chamber 2. Preferably, the electrolytic cell assembly 4 is located right above the ozone diffusing member, i.e. the center line of the electrolytic cell assembly 4 is substantially coaxial with the center line of the ozone diffusing member, and after a long time of use of the food material purifying apparatus, some food scrap impurities may fall between the electrolytic cell assemblies to affect the normal use of the electrolytic cell assemblies, the present application thus places the electrolyte sheet assembly 4 above the ozone diffuser, after the ozone bubbles have diffused into the water through the ozone diffuser, bubble can drive the dropping at the in-process that rises piece impurity in the electrolyte piece subassembly 4 is followed break away from and float to the surface of water on the surface of water in the electrolyte piece subassembly 4, made things convenient for the clearance to piece impurity, can effectively prevent jam the emergence of the short circuit condition between the electrolyte piece subassembly 4, guaranteed edible material purifier's steady operation. Moreover, the installation structure of the vertical projection of the electrolytic cell module 4 can cover the projection of the ozone diffuser, and the installation area of the fixing plate 12 for installing the electrolytic cell module 4 and the ozone diffuser can be reduced, thereby being beneficial to the design of the food material purifying device in the horizontal direction to be more miniaturized.

It should be further noted that the structure of the ozone diffusing member in this embodiment is not particularly limited, and any one of the following embodiments may be adopted:

the first implementation mode comprises the following steps: in the present embodiment, as shown in fig. 4, the ozone diffusing member is a bubbled stone 5, and in the present application, a microporous bubbled stone 5 may be used, and after ozone is diffused through the bubbled stone 5, the amount of dissolved ozone can be increased, so that the diffusion efficiency of ozone is improved. Moreover, the number of openings in the fixation plate 12 can be reduced, which correspondingly reduces the sealing costs for sealing the openings and also enhances the structural strength of the fixation plate 12. In addition, the bottom of the air bubble stone 5 and the fixing plate 12 are matched to form an air equalizing cavity 21, the fixing plate 12 is provided with an air inlet joint 121 communicated with the air equalizing cavity 21, ozone entering the air equalizing cavity 21 from the air inlet joint 121 can be uniformly and rapidly primarily diffused in the air equalizing cavity 21, and the ozone is diffused into tiny bubbles through the air bubble stone 5 after being primarily diffused, so that the diffusion efficiency of the ozone is improved, and the purification efficiency of the purification device is also improved.

The second embodiment: in this embodiment, in an implementation manner not shown in the drawings, the ozone diffusing member is a housing, the inside of the housing is hollow to communicate with the diffusing hole, the fixing plate 12 is provided with an air inlet joint 121, and the housing is provided with an air inlet hole communicating the air inlet joint 121 and the inside of the housing. Through the casing and the intercommunication that sets up on the casing the inlet port of air inlet joint 121 with the diffusion hole can be to from the ozone that air inlet joint 121 got into the casing inside diffuses, and ozone does not rely on the structure of fixed plate 12 diffuses, helps the frivolous setting of fixed plate 12 to help eating material purifier's miniaturization.

As a preferred example in this embodiment, as shown in fig. 4, a diffusion gap 22 is formed between the ozone diffusing member and the electrolytic sheet assembly 4, and ozone diffused into water by the ozone diffusing member can be sufficiently diffused in the diffusion gap 22 and then flows through the electrolytic sheet assembly 4. It should be further noted that the diffusion gap 22 between the ozone diffusing member and the electrolyte sheet assembly 4 can be formed by forming a containing groove 122 adapted to the ozone diffusing member through the concave of the fixing plate 12, and at least a portion of the ozone diffusing member is disposed in the containing groove 122 to form the diffusion gap 22 between the ozone diffusing member and the electrolyte sheet assembly 4. As a changeable implementation manner, a supporting rib 123 for supporting the electrolytic cell assembly 4 may be protruded through the fixing plate 12, and the electrolytic cell assembly 4 is supported on the supporting rib 123 to form a diffusion gap 22 between the ozone diffusing member and the electrolytic cell assembly 4. As another alternative implementation manner, a containing groove 122 adapted to the ozone diffusing member may be formed in the fixing plate 12 in a concave manner, and a supporting rib 123 for supporting the electrolyte sheet assembly 4 is convexly provided on the fixing plate 12, at least a portion of the ozone diffusing member is disposed in the containing groove 122, and the electrolyte sheet assembly 4 is supported on the supporting rib 123, so as to form a diffusion gap 22 between the ozone diffusing member and the electrolyte sheet assembly 4, which can further reduce the thickness of the fixing plate 12 on the premise of ensuring that the diffusion gap 22 is sufficiently large, thereby contributing to the light weight and miniaturization of the food material purifying apparatus.

Example two:

in this embodiment, the axial projection of the ozone diffusion member along the working chamber 2 is located outside the axial projection range of the electrolytic cell assembly 4 along the working chamber 2, the fixing plate 12 is provided with an air inlet joint 121, and the ozone diffusion member has a hollow inner cavity, an air inlet hole communicating the inner cavity with the air inlet joint 121, and a plurality of diffusion holes communicating the inner cavity with the working chamber 2. In specific implementation, as shown in fig. 5 and 6, the ozone diffusing member is a bubble vial 51, a plurality of micro vent holes are formed in a wall of a pipeline of the bubble vial 51, the air inlet connector 121 is disposed at a periphery of the fixing plate 12, a bubble vial mounting groove 125 is disposed at an upper side of the fixing plate 12, the air inlet connector 121 penetrates through a bottom of the fixing plate 12 and a bottom of the bubble vial mounting groove 125, the bubble vial 51 is mounted in the bubble vial mounting groove 125, the air inlet connector 121 includes a portion located at a lower side of the fixing plate 12 and a portion located at an upper side of the fixing plate 12 and extending into an inner pipeline of the bubble vial 51, and ozone enters the inner pipeline of the bubble vial 51 through the air inlet connector 121 and is finally diffused and discharged through the micro vent holes in the wall of the pipeline of the bubble vial 51. It should be noted that the fixing method of the bubble vial 51 in the second embodiment is not limited to the above-mentioned example, and in another specific example, the fixing plate 12 is not provided with the bubble vial mounting groove 125, the area of the fixing plate 12 for mounting the bubble vial 51 is a flat area, and a plurality of clamp structures for clamping the bubble vial 51 are arranged at intervals in the flat area. Of course, other mounting structures may be used to mount the bubble vial 51 to the fixed plate 12.

As a preferred embodiment of the present application, all the aforementioned embodiments, examples and examples of the present application may further include that one of the top cover 13 and the fixing plate 12 has a buckle, and the other of the top cover 13 and the fixing plate 12 has a buckle position adapted to the buckle, and the buckle cooperates with the buckle position to detachably connect the top cover 13 and the fixing plate 12. The mode that the joint is fixed has made things convenient for top cap 13 with the assembly of fixed plate 12 has promoted assembly efficiency, and also convenient to detach top cap 13 in addition, it is right to clear up in the working chamber 2.

In specific implementation, as shown in fig. 3 and 7, the spiral grooves 124 may be selectively arranged along the periphery of the fixing plate 12 at intervals, the top cover 13 is provided with a spiral buckle 131, and when the top cover 13 is installed, the top cover 13 is rotatably buckled in the spiral grooves 124 along the fixing plate 12 through the spiral buckle 131. As a changeable implementation manner, it is also possible to provide a rotating buckle 131 on the fixing plate 12, and the top cover 13 has a rotating groove 124 adapted to the rotating buckle 131, and the rotating buckle 131 cooperates with the rotating groove 124 to detachably connect the top cover 13 and the fixing plate 12. As another specific implementation mode, one of the top cover 13 and the fixed plate 12 has a buckle, and the other of the top cover 13 and the fixed plate 12 has a buckle position adapted to the buckle, and the buckle cooperates with the buckle position along the longitudinal clamping to connect the top cover 13 and the fixed plate 12 detachably.

As another alternative implementation, a mounting hole may be formed in one of the fixing plate 12 and the top cover 13, and a mounting position may be formed in the other of the fixing plate 12 and the top cover 13, and a fastening member may be inserted through the mounting hole and the mounting position to detachably connect the top cover 13 to the fixing plate 12.

As another alternative, the top cover 13 and the fixing plate 12 are screwed to be detachable. Specifically, one of the lower part of the top cover 13 and the upper part of the fixing plate 12 is provided with an internal thread, the other of the top cover 13 and the fixing plate 12 is provided with an external thread matched with the internal thread, the detachable connection of the top cover 13 and the fixing plate 12 is realized through the screwing of the internal thread and the external thread, and the dismounting process is more convenient and faster.

As a preferred embodiment of the present application, as shown in fig. 3, all the aforementioned embodiments, examples and examples of the present application may further include a connecting member 6, the electrolyte membrane module 4 is fixed to the fixing plate 12 through the connecting member 6, and the connecting member 6 is a structure made of conductive metal; the fixed plate 12 and the bottom shell 11 are matched to form a closed power supply cavity 3, and one end of the connecting piece 6 extends into the power supply cavity 3; and a battery is arranged in the power supply cavity 3, or the connecting piece 6 is externally connected with a power supply device. The connecting member 6 may be, but is not limited to, a titanium metal screw, an aluminum metal screw, a copper metal screw, and the like. In specific implementation, as shown in fig. 7 and 8, the fixing plate 12 is provided with screw holes penetrating through the upper and lower end surfaces of the fixing plate 12, the connecting piece 6 passes through the screw holes from one side of the fixing plate 12 to the other side to connect the electrolyte tank assembly 4 located above the fixing plate 12, and the screw holes are sealed by arranging a sealing ring between the connecting piece 6 and the fixing plate 12, so as to ensure the sealing of the power supply cavity 3, and improve the safety performance of the purification device.

In this application, connecting piece 6 that conducting metal made can enough with electrolyte piece subassembly 4 is fixed on fixed plate 12, can regard as electrically conductive device again will electrolyte piece subassembly 4 and power supply unit electric connection have realized the multiple function of a part, compare in setting up connection structure alone and set up electrically conductive structure alone, have saved accessory cost and installation cost, also can save eating the golden installation space of material purifier interior inch of earth. In addition, the power supply end for supplying power to the electrolytic cell assembly 4 is positioned in the closed power supply cavity 3, so that the contact between a power supply line and electrolytic water in the electrolytic process is prevented, the generation of harmful substances is reduced, and a power supply circuit is effectively protected.

As a preferred embodiment of the present application, there is also provided a food cleaning machine, as shown in fig. 9 to 12, comprising the food material purifying device as described above, and further comprising a main machine 8, wherein a control unit and an ozone generating unit are arranged in the main machine 8, the electrolyte sheet assembly 4 is electrically connected to the control unit, and the ozone generating unit supplies ozone to the ozone diffusing member.

As a preferred embodiment of the present embodiment, as shown in fig. 10, 11 and 13, the food material purifying apparatus further includes a transmission line tube 7, and the main body 8 is connected to the food material purifying apparatus through the transmission line tube 7. During specific implementation, host computer 8 have with the coupling of transmission line pipe 7 adaptation, be equipped with wire 71 and ozone pipe 72 in the transmission line pipe 7, the control unit is including setting up automatically controlled board 81 in the host computer 8, ozone generating unit is for locating ozone generator 82 in the host computer 8, electrolyte piece subassembly 4 passes through wire 71 with automatically controlled board 81 electricity is connected, the wiring end of electrolyte piece subassembly 4 has a plurality ofly, and is corresponding be provided with many wires 71 in the transmission line pipe 7, this application centers on many wires 71 the peripheral distribution of ozone pipe 72 has rationally utilized the inner space of transmission line pipe 7 for when transmitting ozone, atress evenly distributed in the transmission line pipe 7 is favorable to the stable transmission and the increase of service life of transmission line pipe 7. In addition, transmission line pipe 7 unites two into one wire 71 and ozone pipe 72, can reduce cost, avoids simultaneously that length and material are asynchronous when circuit and pipeline are separately connected, leads to pipeline or circuit too much, uses and accomodates inconveniently. The ozone diffusion piece is communicated with the ozone generator 82 through the ozone pipe 72, the main machine 8 further comprises a connecting pipe 83, one end of the connecting pipe 83 is communicated with an ozone outlet of the ozone generator 82, the other end of the connecting pipe is communicated with the ozone pipe 72, and after ozone is generated, the ozone enters the food material purifying device through the connecting pipe 83 and the ozone pipe 72 and is diffused by the ozone diffusion piece.

As another preferred example in this embodiment, as shown in fig. 12, the bottom case 11 and the fixing plate 12 cooperate to form a power supply cavity 3, a wireless charging receiving coil 9 and a battery 92 electrically connected to the wireless charging receiving coil 9 are disposed in the power supply cavity 3, and the electrolyte sheet assembly 4 is electrically connected to the battery 92 and wirelessly connected to the control unit; the wireless charging transmitting coil 91 is arranged in the host machine 8, the host machine 8 is provided with a storage and storage position, the food purifying device can be placed in the storage and storage position in a picking and placing mode, when the food purifying device is placed in the storage and storage position, the wireless charging receiving coil 9 is in a working state matched with the wireless charging transmitting coil 91 for charging. On one hand, the wireless charging technology reduces the installation of wires, so that the food cleaning machine is more convenient to use; on the other hand, the safety performance of the food cleaning machine in the liquid environment is also improved.

Where not mentioned in this application, can be accomplished using or referencing existing technology.

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 application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. A food material purifying apparatus, comprising:

the shell comprises a bottom shell, a fixed plate arranged on the bottom shell and a top cover arranged on the fixed plate, the top cover and the fixed plate are matched to form a working cavity, and the top cover is provided with a plurality of through holes communicated with the working cavity;

the electrolytic sheet assembly is positioned in the working cavity and is fixed on the fixing plate; and the number of the first and second groups,

the ozone diffusion piece is located in the working cavity and fixed on the fixing plate.

2. Food material purifying device according to claim 1,

3. Food material purifying device according to claim 2,

the ozone diffusion piece is made of a bubbled stone, a gas homogenizing cavity is formed between the bubbled stone and the fixing plate in a matching mode, and the fixing plate is provided with a gas inlet joint communicated with the gas homogenizing cavity; alternatively, the first and second electrodes may be,

the ozone diffusion piece is a shell, the inside of the shell is hollow so as to be communicated with the diffusion holes, the fixing plate is provided with an air inlet connector, and the shell is provided with an air inlet hole communicated with the air inlet connector and the inside of the shell.

4. Food material purifying device according to claim 2,

5. Food material purifying device according to claim 1,

6. Food material purification apparatus as claimed in any one of claims 1-5,

7. Food material purification apparatus as claimed in any one of claims 1-5,

the food material purifying device also comprises a connecting piece, the electrolytic cell assembly is fixed on the fixing plate through the connecting piece, and the connecting piece is of a structure made of conductive metal;

the fixed plate is matched with the bottom shell to form a closed power supply cavity, and one end of the connecting piece extends into the power supply cavity;

the power supply cavity is internally provided with a battery, or the connecting piece is externally connected with a power supply device.

8. A food washer, comprising:

food material purification apparatus as claimed in any one of claims 1 to 7; and the number of the first and second groups,

the main machine is internally provided with a control unit and an ozone generating unit, the electrolytic sheet assembly is electrically connected with the control unit, and the ozone generating unit supplies ozone to the ozone diffusion piece.

9. The net feeding machine as claimed in claim 8,

10. The net feeding machine as claimed in claim 8,

the bottom shell is matched with the fixing plate to form a power supply cavity, a wireless charging receiving coil and a battery electrically connected with the wireless charging receiving coil are arranged in the power supply cavity, and the electrolytic sheet assembly is electrically connected with the battery and wirelessly communicated with the control unit;

the food material purifying device is arranged in the storage position, and the wireless charging receiving coil is in a working state of being matched with the wireless charging transmitting coil for charging.