CN115349592A

CN115349592A - Easily wash and eat material cleaning machine

Info

Publication number: CN115349592A
Application number: CN202211084817.2A
Authority: CN
Inventors: 张扬; 梁智勇; 程伯添
Original assignee: Guangdong Eraclean Technology Co ltd
Current assignee: Guangdong Eraclean Technology Co ltd
Priority date: 2022-09-06
Filing date: 2022-09-06
Publication date: 2022-11-18

Abstract

The invention discloses an easy-to-clean food material cleaning machine, which belongs to the technical field of cleaning and disinfecting equipment and comprises a control panel, a battery and an electrolysis assembly, wherein the battery and the electrolysis assembly are electrically connected with the control panel; the electrolysis channel penetrates through the shell and is used for fixing the electrolysis assembly; the assembly cavity is hermetically arranged in the shell and used for installing the control panel and the battery. The easily wash edible material cleaning machine of above-mentioned structure through the adjustment overall arrangement, sets up the electrolysis passageway that runs through the casing, and then water can run through from the electrolysis passageway when using, and the hypochlorite ion that the electrolysis of not only being convenient for produced and the diffusion of hydroxyl ion improve the sterile effect of disinfecting to be convenient for wash the electrode slice, also be convenient for clear away water from the casing simultaneously.

Description

Easily wash and eat material cleaning machine

Technical Field

The invention relates to the technical field of cleaning and disinfecting equipment, in particular to an improvement of an easily-cleaned food material cleaning machine.

Background

The existing electrolytic disinfection device utilizes electrodes to act on tap water to generate hypochlorite ions and hydroxyl ions, and utilizes the strong oxidizing ions to sterilize and disinfect food materials such as fruits, vegetables and meat, for example, the application number is CN202021449694.4 Chinese patent portable fruit and vegetable disinfection machine comprises a disinfection machine body (1), the disinfection machine body (1) comprises a lower shell (11) with an upward opening and an upper shell (12) with a downward opening, the lower shell (11) and the upper shell (12) are hermetically connected with each other and form a sealed cavity (11 a) used for installing a power supply module (13) for supplying power between the lower shell (11) and the upper shell (12), the disinfection machine body (1) further comprises an electrolytic module (17) for electrolyzing water, and the electrolytic module (17) is positioned outside the sealed cavity (11 a) and electrically connected with the power supply module (13). When in use, the whole disinfection machine body is placed in water, and the hypochlorite ions and the hydroxide ions generated by electrolyzing the water are used for sterilization and disinfection.

However, the portable fruit and vegetable sterilizer has the following defects: (1) Only the hollow part is arranged on the top cover, so that water enters from a single side, hypochlorite ions and hydroxyl ions which are not conveniently generated are rapidly dispersed in the water, and when the disinfection machine is taken out from the water after the disinfection is finished, the water can be completely poured out by turning over the shell, which is very inconvenient; (2) Because the single-side hollow electrode is adopted, only one side of the electrode can be washed when the electrode is washed, dirt can be remained at the position where the electrode can not be washed after a long time, the disinfection effect is influenced, the energy consumption is improved, the application range of the electrode can be further influenced, the electrode can only disinfect food materials such as fruits and vegetables by water feeding, and meat or food materials containing grease can not be disinfected; (3) The electrode plates are three layers of horizontally stacked electrode plates and are separated by insulating sheets, the ionization effect is poor due to the limited number of the electrode plates and the horizontal arrangement, and only the uppermost electrode plate can be washed during washing, so that the pollution is easily stored, and the normal ionization of an electrolytic assembly is influenced; and (4) the water tank can be placed in the water tank only, and cannot be suspended in the water tank.

It is seen that improvements and enhancements in the prior art are needed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide an easily-cleaned food material cleaning machine, and aims to overcome the defects that electrodes of the easily-cleaned food material cleaning and sterilizing equipment in the prior art are difficult to clean and have poor adaptability in use.

In order to achieve the purpose, the invention adopts the following technical scheme:

an easy-cleaning food material cleaning machine comprises a control panel, a battery and an electrolysis assembly, wherein the battery and the electrolysis assembly are electrically connected with the control panel; the electrolysis channel penetrates through the shell and is used for fixing the electrolysis assembly; the assembly cavity is arranged in the shell in a sealed mode and used for installing the control panel and the battery.

In the easy-cleaning food material cleaning machine, the electrolysis assembly comprises an electrode terminal, two electrodes electrically connected with the electrode terminal and a connecting sheet used for electrically connecting the electrode terminal and the control panel.

In the easy-to-clean food material cleaning machine, the two electrodes are a plurality of electrode plates which are arranged in parallel and have sheet structures.

In the easy-to-clean food material cleaning machine, the electrode plates are arranged to be vertical to the upper surface and the lower surface of the shell.

In the easy-to-clean food material cleaning machine, a first mounting groove is formed between the assembly cavity and the electrolytic channel, and the electrode terminal is fixed in the first mounting groove; the electrode is arranged in the electrolytic channel, and the end part of the electrode penetrates through the side wall of the electrolytic channel to be connected with the electrode terminal; one end of the connecting sheet is connected with the electrode terminal, and the other end of the connecting sheet penetrates through the side wall of the assembling cavity and is electrically connected with the control board.

In the easy-to-clean food material cleaning machine, a clamping groove is formed in the first mounting groove, and the electrode terminal is clamped in the clamping groove; the first mounting groove is further provided with a second threaded hole, the electrode terminal and the connecting piece are provided with second through holes at positions corresponding to the second threaded hole, and the electrode terminal and the connecting piece are fixed on the second threaded hole through bolts or screws.

In the easy-to-clean food material cleaning machine, the shell comprises a bottom shell and a face cover which are buckled with each other, and the easy-to-clean food material cleaning machine also comprises a decorative cover which is arranged on the face cover and is detachably connected with the face cover; the bottom shell and the decorative cover are provided with hollow structures corresponding to the positions of the electrolysis channels.

In the easy-to-clean food material cleaning machine, the side wall of the electrolysis channel consists of a first fixed frame arranged on the surface cover and a second fixed frame arranged on the bottom shell, the cross sections of the first fixed frame and the second fixed frame are both rectangular, and the bottom surface of the first fixed frame is abutted against the top surface of the second fixed frame; the second is equipped with a plurality of stoppers that set up in pairs along the both sides of the fixed frame of second, the height that highly is greater than the fixed frame of second of stopper to with the lateral wall butt of the first fixed frame.

In the easy-to-clean food material cleaning machine, a strip-shaped jack is arranged on the side wall of one end of the first fixed frame, a first grid is arranged at the other end of the first fixed frame, one end of the electrode plate penetrates through the strip-shaped jack and is connected with the electrode terminal, and the other end of the electrode plate is fixed on the first grid; and a second grid is arranged in the middle of the second fixing frame, and the middle part of the electrode plate is inserted in the second grid.

In the easy-to-clean food material cleaning machine, a lifting rope is further arranged at one end of the bottom shell.

Has the advantages that:

the invention provides an easy-cleaning food material cleaning machine, which can fix electrodes in an electrolysis channel by arranging the electrolysis channel penetrating through a shell, and the electrolysis channel is a channel convecting up and down, so that hypochlorite ions and hydroxyl ions generated by electrolysis are convenient to diffuse and output, the sterilization and disinfection effects are improved, and the electrodes can be directly flushed by water during cleaning, the electrodes are convenient to clean, and the application range of equipment can be expanded. In addition, the assembly cavity body which is assembled with the control panel and the battery is hermetically arranged in the shell, so that the contact of water with the control panel and the battery can be prevented, and the short circuit is avoided.

Drawings

Fig. 1 is a schematic structural view of the easy-to-clean food material cleaning machine provided by the invention.

Fig. 2 is an exploded view of the easy-to-clean food material washing machine.

Fig. 3 is a sectional view of the main body of the easy washing food material washing machine.

Fig. 4 is an enlarged view of a portion a in fig. 3.

FIG. 5 is a schematic view of the structure of an electrolytic module.

Fig. 6 is a schematic structural view of the face cover.

Fig. 7 is a schematic structural diagram of the bottom case.

Fig. 8 is an exploded view of the switch assembly.

In the drawings, the reference numbers: 1-shell, 1.1-bottom shell, 1.2-face cover, 1.3-decorative cover, 2-electrolysis channel, 3-assembly cavity, 4-control panel, 5-electrolysis component, 5.1-electrode, 5.2-electrode terminal, 5.3-connecting sheet, 6-battery, 7-hollowed-out structure, 8-groove, 9-first sealing ring, 10-first groove edge, 11-second groove edge, 12-lower clapboard, 13-upper clapboard, 14-slot, 15-first fixing frame, 16-second fixing frame, 17-switch component, 18-installation slot hole, 19-button, 20-lamp ring, 21-first convex edge, 22-second convex edge, 23-ring groove, 24-third sealing ring, 25-elastic sealing element, 26-convex column, 27-switch synapse, 28-assembling frame body, 29-supporting block, 30-clamping block, 31-first threaded hole, 32-first through hole, 33-first mounting groove, 34-clamping groove, 35-second threaded hole, 36-second through hole, 37-strip-shaped jack, 38-first grating, 39-second grating, 40-lifting rope, 41-wireless charging seat, 42-shell, 43-wireless charging emitter, 44-charging plate, 45-wireless charging receiver, 46-second mounting groove, 47-limiting block, 48-fixing plate, 49-pin, 50-contact part, 51-perforation, 52-avoidance hole and 53-second sealing ring.

Detailed Description

The invention provides an easy-to-clean food material cleaning machine, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail by the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

In the description of the embodiments of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the present product is conventionally placed in when used, and are only used for convenience of description and simplicity of description, but do not indicate or imply that the indicated device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present invention, it should be further noted that, unless otherwise explicitly stated or limited, the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be mechanically coupled, directly coupled, indirectly coupled through intervening media, or interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Referring to fig. 1 and 2, an easy-to-clean food material washing machine according to a preferred embodiment of the present invention includes a control board 4, an electrolysis assembly 5 electrically connected to the control board 4, and a battery 6, wherein the electrolysis assembly 5 includes two electrodes 5.1, two electrode terminals 5.2 connected to the two electrodes 5.1, and a connecting sheet 5.3 for electrically connecting the electrode terminals 5.2 and the control board 4, the two electrodes 5.1 are a cathode electrode 5.1 and an anode electrode 5.1, which are ruthenium iridium platinum electrodes 5.1, respectively, and can electrolyze water in an energized state, and by generating hypochlorite ions and hydroxide ions with strong oxidizing property, food materials such as fruits, vegetables, and meats can be sterilized and disinfected.

The easy-to-clean food material cleaning machine further comprises a shell 1, the shell 1 can be set into various possible shapes according to needs, and a long column with an arc angle is adopted in the preferred embodiment, as shown in fig. 1. One end of the shell 1 is provided with an electrolysis channel 2 penetrating through the upper and lower bottom surfaces of the shell 1, as shown in fig. 2 and 3, and the other end of the shell 1 is provided with an assembly cavity 3 sealed in the shell 1. The electrolytic channel 2 can be set into various possible shapes according to actual needs so as to facilitate the water flow and the fixation of the electrode. In the preferred embodiment, a through hole with a rectangular cross section extending along the long side direction of the shell 1 is adopted and penetrates through the upper surface and the lower surface of the shell, the electrolytic channel 2 is used for fixing the electrode 5.1 and is immersed in water when in use, and the through hole is through up and down, so that water is allowed to pass through; the assembly cavity 3 is used for fixedly mounting the control panel 4 and the battery 6 and preventing the control panel 4 and the battery 6 from contacting with water.

According to the easy-to-clean food material cleaning machine with the structure, the electrolytic assembly 5, the control board 4 and the battery 6 are arranged at two separated ends by adjusting the layout, so that the through electrolytic channel 2 can be arranged at one end of the corresponding electrode 5.1, and when the easy-to-clean food material cleaning machine is used, water can pass through the electrolytic channel 2 by only laterally placing the food material cleaning machine, so that the diffusion of hypochlorite ions and hydroxyl ions generated by electrolysis is accelerated, and the sterilization and disinfection effects are improved; and when taking out the food material cleaning machine from the water, the water can flow out from the through electrolysis channel 2, and the water can be removed without turning over the shell 1. In addition, when the electrolytic component 5 is cleaned, the electrolytic component 5 can be directly washed by water, and because the electrolytic channel 2 is convective, the washed dirt directly flows away from the outlet below, and cannot be retained in the shell 1, so that the cleaning effect is improved. Furthermore, since the electrolytic channel 2 is a convection channel, the electrolytic component 5 can be washed from both sides by turning the case 1 upside down, and thus the cleaning becomes cleaner.

Specifically, the two electrodes 5.1 can be in various possible shapes, such as a mesh shape, a spiral shape or a sheet shape, wherein the mesh-shaped electrode 5.1 has a high electrolytic effect and a good sterilization and disinfection effect, but the mesh-shaped structure is easy to store dirt and dirty and is inconvenient to clean, so that the mesh-shaped electrode is not suitable for sterilizing and disinfecting meat with high grease, and the application of the food material cleaning machine is limited. The spiral electrode 5.1 has larger sheet resistance and high energy consumption, can improve the charging frequency of the food material cleaning machine, and shortens the service life of the battery 6. The 5.1 electrodes with the sheet structures have small resistance, are not easy to store dirt, are convenient to clean, and can be applied to disinfection and sterilization of meat food materials, so the 5.1 electrodes with the sheet structures are preferred. More preferably, the plurality of electrodes 5.1 are arranged in parallel, for example, a plurality of cathode strips are arranged in parallel and a plurality of anode strips are arranged in parallel, as shown in fig. 5, because of the parallel arrangement, the cleaning is convenient, the resistance is smaller, the contact area with water is larger, the electrolysis efficiency is higher, and the sterilization and disinfection effects can be greatly improved. More preferably, a plurality of negative electrodes 5.1 and positive electrodes 5.1 are arranged at intervals, so that the electrolytic effect is better, and the sterilization and disinfection can be better.

The plurality of spaced and parallel cathode strips and anode strips may be arranged parallel to the upper and lower surfaces of the casing 1, may be arranged perpendicular to the upper and lower surfaces of the casing 1, and may be arranged at a certain included angle with the upper and lower surfaces of the casing 1. Preferably perpendicular to the upper and lower surfaces of the housing 1, and further in the same direction as the convection of water in the electrolysis channel 2, such a structure facilitates the diffusion of hypochlorite ions and hydroxide ions during electrolysis, facilitates the washing of the dirt from the electrode 5.1 sheet during rinsing, and facilitates cleaning.

For easy assembly, in a preferred embodiment, as shown in fig. 2 and 3, the housing 1 includes a bottom case 1.1 and a surface cover 1.2 fastened to the bottom case 1.1, and after the bottom case 1.1 is fastened to the surface cover 1.2, a sealed assembly cavity 3 is formed at one end inside the housing, an electrolysis channel 2 penetrating through the bottom case 1.1 and the surface cover 1.2 is formed at an end opposite to the assembly cavity 3, the control board 4 and the battery 6 are fixedly mounted in the assembly cavity 3, and the electrode 5.1 is disposed in the electrolysis channel 2. Further, face lid 1.2 still is equipped with the dress trim cover 1.3 that can dismantle the connection, drain pan 1.1 and dress trim cover 1.3 correspond 2 departments of electrolysis passageway and all are equipped with hollow out construction 7, through hollow out construction 7, not only rivers can freely pass in and out in electrolysis passageway 2 to can also intercept and eat the material and get into electrolysis passageway 2, avoid eating the direct and 5.1 piece contacts of material and electrode. The position of the surface cover 1.2 corresponding to the electrolysis channel 2 is open, so when the decorative cover 1.3 is detached, the cleaning of the electrode 5.1 sheet is more convenient through the opening of the surface cover 1.2.

The shell 1 with the structure is easy to disassemble and convenient to assemble. Can dismantle the dress trim cover 1.3 of connection through the setting to the position that corresponds electrolysis passageway 2 at drain pan 1.1 and dress trim cover 1.3 sets up hollow out construction 7, consequently makes eating the material cleaning machine when using, can make better the passing through of rivers, can intercept again and eat the material, avoids eating material and 5.1 piece direct contact of electrode, simultaneously, when wasing, can dismantle dress trim cover 1.3, makes the water offset electrode 5.1 pieces, improves the cleaning performance.

It should be noted that the decorative cover 1.3 and the face cover 1.2 can be detachably connected by a buckle structure, a card insertion structure or an interference fit structure, and then can be conveniently detached during cleaning.

Since the working environment of the food material washing machine is in water, but the control panel 4 and the battery 6 which are not contacted with water are arranged inside the food material washing machine, water leakage into the assembly cavity 3 must be prevented, so as to ensure the normal operation of the food material washing machine. In order to ensure the sealing performance between the bottom case 1.1 and the surface cover 1.2 and prevent water from leaking from the joint between the bottom case 1.1 and the surface cover 1.2 to the inside, in a preferred embodiment, as shown in fig. 2 and 3, a groove 8 is circumferentially formed along the outer side wall of the surface cover 1.2, a first sealing ring 9 is disposed in the groove 8, and when the surface cover 1.2 is fastened to the bottom case 1.1, the first sealing ring 9 is embedded between the inner side wall of the bottom case and the outer side wall of the surface cover, so as to prevent water from entering the inside of the casing 1 and improve the sealing performance.

In order to further improve the sealing performance, in a preferred embodiment, as shown in fig. 7, the bottom case 1.1 is further provided with a first groove edge 10 and a second groove edge 11 extending upward along an inner side wall thereof, the first groove edge 10 is located at one end of the bottom case 1.1 where the electrolysis channel 2 is located, the second groove edge 11 is located at one end of the bottom case 1.1 where the assembly cavity 3 is located, a slot 14 is formed between each of the first groove edge 10 and the second groove edge and the inner side wall of the bottom case 1.1, a groove width of the slot 14 is adapted to a side wall thickness of the face cover 1.2, when the face cover 1.2 is fastened on the bottom case 1.1, a top portion of the side wall of the face cover 1.2 is just inserted into the slot 14, and a sealed cavity is formed between the bottom case 1.1 and the face cover 1.2.

In order to avoid water from leaking into the assembly cavity 3 through the electrolytic channel 2, in a preferred embodiment, as shown in fig. 6 and 7, a partition is further disposed in the middle of the bottom case 1.1 and the face cover 1.2, and includes a lower partition 12 disposed in the middle of the bottom case 1.1 and an upper partition 13 disposed in the middle of the face cover 1.2, the lower partition 12 and the upper partition 13 are disposed opposite to each other, when the bottom case 1.1 and the face cover 1.2 are fastened, the bottom surface of the upper partition 13 is in sealing contact with the top surface of the lower partition 12, so as to separate the cavity formed after the bottom case 1.1 and the face cover 1.2 are fastened into two independent parts. The lower partition plate 12 and the second groove edge 11 enclose to form an assembly frame 28, and when the bottom case 1.1 and the face cover 1.2 are fastened, the assembly frame 28, the face cover 1.2 and the upper partition plate 13 enclose to form an independent cavity, i.e., an assembly cavity 3, for fixedly mounting the control board 4 and the battery 6. The electrolytic channel 2 is arranged at the end opposite to the assembly chamber 3 and is spaced from the upper partition plate 13 and the lower partition plate 12. The side wall of the electrolysis channel 2 is composed of a first fixing frame 15 arranged on the surface cover 1.2 and a second fixing frame 16 arranged on the bottom shell 1.1, the first fixing frame 15 and the second fixing frame 16 are arranged oppositely from top to bottom, the first fixing frame 15 and the second fixing frame 16 are both frame structures with rectangular cross sections, when the surface cover 1.2 is buckled on the bottom shell 1.1, the bottom surface of the first fixing frame 15 is in sealed butt joint with the top surface of the second fixing frame 16, and the electrolysis channel 2 penetrating through the bottom shell 1.1 and the surface cover 1.2 is formed.

In order to further improve the sealing performance of the assembly cavity 3, a second sealing ring 53 is further disposed outside the assembly frame 28, as shown in fig. 2 and 3, the second sealing ring 53 is fixed in the slot 14, and when the top of the sidewall of the face cover 1.2 is inserted into the slot 14, the top of the sidewall thereof is pressed and abutted against the second sealing ring 53, so as to further seal the assembly cavity 3.

In order to further stabilize the stability of the first fixing frame and the second fixing frame after being butted, in a preferred embodiment, as shown in fig. 7, a plurality of limiting blocks 47 arranged in pairs are further disposed on the bottom case 1.1 along two sides of the second fixing frame 16, and the height of the limiting blocks 47 is greater than the height of the second fixing frame 16 and abuts against the outer sidewall of the first fixing frame. Through stopper 47 can restrict first fixed frame 15 and take place to remove about when the assembly, and then make the counterpoint more accurate to, because stopper 47 sets up in pairs in the both sides of the fixed frame 16 of second, can form the draw-in groove structure, and then can make first fixed frame 15 more firm with the fixed frame 16 butt joint back of second.

Because the assembly cavity 3 and the electrolysis channel 2 are respectively and independently arranged at intervals, water passing through the electrolysis channel 2 cannot enter the assembly cavity 3, and the phenomenon that the control panel 4 and the battery 6 are in contact with water and short circuit is avoided.

In order to facilitate the control of the switch of the easy-to-clean food material cleaning machine, in a preferred embodiment, as shown in fig. 2 and fig. 3, a switch assembly 17 for controlling and displaying the working state of the electrolysis assembly 5 is further disposed on the surface cover 1.2, a cylindrical installation slot 18 adapted to the switch assembly 17 is disposed on the surface cover 1.2 corresponding to the switch assembly 17, a cylinder of the installation slot 18 extends downward, and a bottom surface of the installation slot is abutted to the control board 4 fixed in the surface cover 1.2. As shown in fig. 8, the switch assembly 17 includes a button 19 and a lamp ring 20 sleeved outside the button 19, the button 19 faces downward a switch synapse 27 disposed on the control board 4, and moves downward when pressed, which triggers the switch synapse 27, so that the control board 4 turns on or off the operation of the electrolytic assembly 5. The lamp ring 20 can be lighted when the electrolytic component 5 works, and is used for indicating the working state of the electrolytic component 5.

It should be noted that the decoration cover is also provided with a through hole at a position corresponding to the switch component, and the key portion extends into the through hole but does not protrude from the decoration cover.

In order to avoid water leakage from the mounting slot 18 into the mounting cavity 3, in a preferred embodiment, the switch assembly 17 further includes an elastic sealing member 25, as shown in fig. 2, 4 and 8, the elastic sealing member 25 is made of silicone, is in a shape of a cap, and is disposed between the key 19 and the control board 4, an upper surface of a top of the elastic sealing member 25 abuts against a bottom of the key 19, and a lower surface of the top thereof is provided with a protrusion 26, and the protrusion 26 can contact with the switch synapse 27 when being pressed down for triggering a switch signal. The brim of the elastic sealing element 25 extends outwards to the lower part of the groove wall of the mounting groove hole 18 and is arranged between the groove wall of the mounting groove hole and the control panel 4, and the brim is made of elastic silica gel material, so that the mounting groove hole 18 can be sealed by pressing and clamping, and water is further prevented from leaking to the control panel 4 from the abutting part of the mounting groove hole 18 and the control panel 4. Moreover, the elastic sealing element 25 is made of silica gel, so that the elastic sealing element has elasticity, and when the elastic sealing element is pressed by the key 19, the top of the elastic sealing element is deformed, so that the convex column 26 moves downwards to be in contact with the switch synapse 27, and the switch is triggered; when it is not pressed, its top can lift up the key 19, so that the key 19 can be reset when it is not pressed by external force.

In order to further improve the sealing performance, the top of the mounting slot 18 is provided with a first flange 21 extending inward, as shown in fig. 4, the outer peripheral wall of the lamp ring 20 is provided with a second flange 22 extending outward at a position corresponding to the first flange 21, and when the lamp ring 20 is fixed in the mounting slot 18, the first flange 21 and the second flange 22 abut against each other at the upper and lower surfaces, so as to prevent water from leaking into the mounting cavity 3 from the contact position of the lamp ring 20 and the mounting slot.

Further, as shown in fig. 2, an annular groove 23 is further formed in the outer peripheral wall of the lamp ring 20, a third sealing ring 24 is arranged in the annular groove 23, and the third sealing ring 24 can prevent water from leaking into the assembly cavity 3 from the contact position of the lamp ring 20 and the installation slot 18, so that the sealing performance of the assembly cavity 3 is further improved.

It should be noted that the first seal ring 9, the second seal ring 53, and the third seal ring 24 are all made of rubber or plastic with elastic performance, so that a better sealing effect is achieved.

In a preferred embodiment, as shown in fig. 4 and 8, the bottom of the key 19 is provided with a pin 49 and a contact portion 50, the middle of the lamp ring 20 is provided with a fixing plate 48, the fixing plate 48 is provided with a through hole 51 and a relief hole 52 at positions corresponding to the pin 49 and the contact portion 50, respectively, the end of the pin 49 is provided with an outwardly protruding clamping portion, and the pin 49 and the contact portion 50 penetrate through the through hole 51 and the relief hole 52, respectively, during assembly. When the lamp is used, the contact part 50 can move downwards to press the elastic sealing piece 25 by pressing the key 19, so that the switch synapse 27 is triggered, when the key 19 is not pressed, the key can move upwards under the action of the elastic sealing piece 25, and the clamping part of the pin 49 can be hooked on the edge of the through hole 51, so that the upward movement stroke of the key 19 can be limited, and the key 19 is prevented from being ejected from the lamp ring 20; the fixing plate 48 can limit the downward movement stroke of the key 19, and prevent the elastic sealing element 25 from being excessively pressed to damage the circuit board.

In order to increase the stability of the installation of the control board 4, in a preferred embodiment, as shown in fig. 6, the face cover 1.2 is further provided with two supporting blocks 29, the height of each supporting block 29 is the same as the height of the groove wall of the installation groove hole 18, and both supporting blocks are abutted against the top surface of the control board 4 to keep the control board 4 horizontal, the side of the upper partition plate 13 opposite to the assembly cavity 3 is provided with a fixture block 30, the fixture block 30 is abutted against the bottom surface of the control board 4 to support the control board 4 from the lower side of the control board 4, so that the control board 4 can be stably fixed in the face cover 1.2 by the bottom wall of the installation groove hole 18, the supporting blocks 29 and the fixture block 30.

In order to further enhance the fixing of the control board 4, in a preferred embodiment, as shown in fig. 6, the face cover 1.2 is further provided with at least one first threaded hole 31 along the peripheral sidewall of the mounting slot hole 18, and the control board 4 is provided with a first through hole 32 at a position corresponding to the first threaded hole 31, so that the control board 4 can be more stably connected to the face cover 1.2 by means of bolt or screw fixing.

In a preferred embodiment, as shown in fig. 3 and 6, the electrode terminal is a rectangular long frame with an unclosed cross section, a first mounting groove 33 is further disposed between the electrolytic channel 2 and the assembly cavity 3, a locking groove 34 is disposed in the first mounting groove 33, and the width of the locking groove is adapted to the width of the electrode terminal for fixing the electrode terminal 5.2. The connecting sheet 5.3 is arranged on the upper partition 13 in a penetrating way, one end of the connecting sheet extends into the assembly cavity to be electrically connected with the control panel, and the other end of the connecting sheet is in contact with one frame surface of the electrode terminal and is used for electrically connecting the electrode terminal 5.2 and the control panel 4. In order to improve the tightness of the assembly chamber 3, the connecting piece 5.3 may be injection molded together with the cover 1.2, and may be formed integrally with the upper partition 13. In order to improve the stability of the electrode terminal 5.2, a second threaded hole 35 is further formed in the first mounting groove 33 at a position corresponding to the connection position of the electrode terminal 5.2 and the connecting sheet 5.3, second through holes 36 are formed in the electrode terminal 5.2 and the connecting sheet 5.3, and the electrode terminal 5.2 and the connecting sheet 5.3 are connected with the second threaded hole 35 through bolts or screws.

As shown in fig. 6, a strip-shaped insertion hole 37 is formed in a wall of the first fixing frame 15 close to the first mounting groove 33, a first grid 38 is arranged at one end of the first fixing frame 15 opposite to the strip-shaped insertion hole 37, the number of the strip-shaped insertion holes 37, the number of the grid grooves in the first grid 38 and the number of the electrodes 5.1 are the same, one end of each electrode 5.1 passes through the strip-shaped insertion hole 37, extends into the first mounting groove 33, and is inserted into the strip-shaped insertion hole correspondingly arranged in the electrode terminal 5.2, and the other end of each electrode 5.1 is inserted into the first grid 38.

For better fixing of the electrodes 5.1, the bottom shell 1.1 is provided with a second grid 39 in the second fixing frame 16, as shown in fig. 7, and the second grid 39 is arranged in the middle of the electrolytic channel 2, provided with a grid groove that is open upwards, into which the middle of the electrode 5.1 pieces are inserted, thus having a more stable mounting structure.

In some embodiments, as shown in fig. 1 and fig. 2, a lifting rope 40 is further disposed at one end of the bottom casing 1.1, preferably at one end of the electrolytic channel 2, and the lifting rope 40 facilitates lifting and hanging the food material washing machine. Moreover, the food material cleaning machine can be suspended in water through the lifting rope 40, so that the water can flow through the electrolytic channel 2 conveniently, the diffusion of hypochlorite ions and hydroxyl ions is accelerated, and the sterilization and disinfection effects are improved.

In order to charge the battery 6 conveniently, the sealing performance of the assembly cavity 3 is guaranteed, and therefore the food material cleaning machine is charged in a wireless charging mode. In order to realize wireless charging, the food material washing machine further comprises a wireless charging base 41, as shown in fig. 1 and fig. 2, the wireless charging base 41 comprises a housing 42, and a wireless charging emitter 43 and a charging panel 44 which are arranged in the housing 42, the charging panel 44 is electrically connected with the wireless charging emitter 43, and the charging panel 44 is further electrically connected with an external power supply (not shown in the figure). Correspondingly, the position that drain pan 1.1 corresponds assembly cavity 3 is equipped with second mounting groove 46, be equipped with wireless receiver 45 that charges in the second mounting groove 46, wireless receiver 45 that charges is connected with control panel 4 electricity, through wireless transmitter and the wireless receiver that charges, can realize charging for the battery is wireless to, owing to be wireless charging, consequently need not to set up binding post, can avoid water from binding post department seepage to in the casing to whether there is water outside the casing, all can charge.

In conclusion, the easily-cleaned food material cleaning machine is convenient for the diffusion of hypochlorite ions and hydroxide ions and the sterilization and disinfection effect by arranging the electrolysis channel capable of convecting, can be cleaned conveniently, can be used for disassembling the decorative cover during cleaning, directly uses water to flush the electrode plates, and directly uses water to flow away from the electrolysis channel, so that the easily-cleaned food material cleaning machine is convenient for cleaning and has a good cleaning effect; meanwhile, the arranged electrodes are sheet electrodes, so that the electrolytic cell has a good electrolytic effect, is not easy to store dirt and is easy to clean. The multiple sealing structures arranged on the bottom shell and the surface cover can prevent water from leaking into the assembly cavity, so that short circuit can be avoided, and the service life of the food material cleaning machine is prolonged; by arranging the switch assembly with a special structure, leakage can be avoided, and the working state can be clearly displayed; through setting up wireless charging seat, can realize wireless charging, it is more convenient.

It should be understood that equivalents and modifications to the invention as described herein may occur to those skilled in the art, and all such modifications and alterations are intended to fall within the scope of the appended claims.

Claims

1. An easy-cleaning food material cleaning machine comprises a control panel, a battery and an electrolysis assembly, wherein the battery and the electrolysis assembly are electrically connected with the control panel; the electrolysis channel penetrates through the shell and is used for fixing the electrolysis assembly; the assembly cavity is arranged in the shell in a sealed mode and used for installing the control panel and the battery.

2. The easy-to-clean food material washing machine as claimed in claim 1, wherein the electrolysis assembly comprises an electrode terminal, two electrodes electrically connected with the electrode terminal, and a connecting piece for electrically connecting the electrode terminal and the control board.

3. The easy-to-wash food material washing machine as claimed in claim 2, wherein the two electrodes are a plurality of electrode sheets of sheet-like structure arranged in parallel.

4. The easy-to-wash food material washing machine as claimed in claim 3, wherein the plurality of electrode slices are arranged vertically to the upper and lower surfaces of the housing.

5. The easy-cleaning food material cleaning machine as claimed in claim 2, wherein a first mounting groove is provided between the assembly cavity and the electrolytic channel, and the electrode terminal is fixed in the first mounting groove; the electrode is arranged in the electrolytic channel, and the end part of the electrode penetrates through the side wall of the electrolytic channel to be connected with the electrode terminal; one end of the connecting sheet is connected with the electrode terminal, and the other end of the connecting sheet penetrates through the side wall of the assembling cavity and is electrically connected with the control board.

6. The easy-to-clean food material cleaning machine according to claim 5, wherein a clamping groove is formed in the first mounting groove, and the electrode terminal is clamped in the clamping groove; the first mounting groove is further provided with a second threaded hole, the electrode terminal and the connecting piece are provided with second through holes at positions corresponding to the second threaded hole, and the electrode terminal and the connecting piece are fixed on the second threaded hole through bolts or screws.

7. The easy-to-clean food material cleaning machine as claimed in claim 3, wherein the housing comprises a bottom shell and a face cover which are buckled with each other, and further comprises a decoration cover which is arranged on the face cover and detachably connected with the face cover; the bottom shell and the decorative cover are provided with hollow structures corresponding to the positions of the electrolysis channels.

8. The easy-cleaning food material cleaning machine according to claim 7, wherein the side wall of the electrolysis channel is composed of a first fixing frame arranged on the surface cover and a second fixing frame arranged on the bottom shell, the first fixing frame and the second fixing frame are both rectangular in cross section, and the bottom surface of the first fixing frame is abutted with the top surface of the second fixing frame; the second is equipped with a plurality of stoppers that set up in pairs along the both sides of the fixed frame of second, the height that highly is greater than the fixed frame of second of stopper to with the lateral wall butt of the first fixed frame.

9. The easy-to-clean food material cleaning machine as claimed in claim 8, wherein the first fixing frame is provided with a strip-shaped jack on a side wall at one end thereof and a first grid at the other end thereof, one end of the electrode plate passes through the strip-shaped jack and is connected with the electrode terminal, and the other end thereof is fixed on the first grid; and a second grid is arranged in the middle of the second fixing frame, and the middle part of the electrode plate is inserted in the second grid.

10. The easy-to-wash food material washing machine as claimed in claim 7, wherein a lifting rope is further provided at one end of the bottom shell.