CN210931039U - Fruit and vegetable sterilizer - Google Patents

Abstract

The utility model relates to a fruit and vegetable sterilizer which comprises an electrolysis module, a shell and an elastic conductive element. The casing includes first inner wall, and in the casing was located to the electrolysis module, electrolysis module buckle was connected in first inner wall. The first inner wall is provided with a first through hole, and the elastic conductive element passes through the first through hole and abuts against the electrolysis module. The fruit and vegetable sterilizing machine provided by the embodiment is characterized in that the electrolytic module is connected to the first inner wall of the shell in a buckling mode, and therefore the electrolytic module can be detached from the shell. The electrolysis module is separated from the elastic conductive element only by pressing the elastic conductive element, and then the electrolysis module is taken out of the shell. So, the electrolysis module in this embodiment can take out at any time and wash or change in following the casing, is favorable to prolonging the life of fruit vegetables sterilizer, guarantees the electrolysis efficiency of fruit vegetables sterilizer.

Description

Fruit and vegetable sterilizer

Technical Field

The utility model relates to a vegetables disinfection technical field especially relates to a fruit vegetables sterilizing machine.

Background

The fruit and vegetable sterilizer is an indispensable component in kitchen supplies and is used for cleaning fruits and vegetables. The fruit and vegetable sterilizer is a sterilizer which can be applied to sterilizing objects such as fruits, vegetables, milk bottles, kitchen utensils and the like, and has a wide market. In practical application of the fruit and vegetable disinfection machine adopting the electrolyzed water principle for disinfection and sterilization, an electrolysis module of the fruit and vegetable disinfection machine is exposed in water for a long time, so that dirt and scale are easy to pollute and form, the electrolysis performance is reduced, and the electrolysis module needs to be cleaned and replaced frequently. However, the electrolytic module in the conventional fruit and vegetable sterilizer is generally directly fixed in the shell of the fruit and vegetable sterilizer and cannot be detached independently, so that the electrolytic module cannot be cleaned and replaced independently.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a fruit and vegetable sterilizer with an easily detachable electrolysis module.

A fruit and vegetable sterilizer, comprising:

an electrolysis module;

the electrolytic module is arranged in the shell, the shell comprises a first inner wall, and the electrolytic module is connected to the first inner wall in a buckling mode; and

the first inner wall of the elastic conductive element is provided with a first through hole, and the elastic conductive element penetrates through the first through hole and abuts against the electrolytic module.

The technical solution is further explained below:

in one embodiment, a first clamping part and a second clamping part are arranged on the electrolytic module, a first clamping groove and a second clamping groove are arranged on the first inner wall corresponding to the first clamping part and the second clamping part, the first clamping groove is in clamping fit with the first clamping part, and the second clamping groove is in clamping fit with the second clamping part;

or, a first clamping groove and a second clamping groove are formed in the electrolysis module, a first clamping part and a second clamping part are arranged on the first inner wall corresponding to the first clamping groove and the second clamping groove, the first clamping groove is in clamping fit with the first clamping part, and the second clamping groove is in clamping fit with the second clamping part.

In one embodiment, the first engaging member is a buckle, the second engaging member is a snap, and the buckle and the snap are respectively disposed at two ends of the electrolytic module.

In one embodiment, the first inner wall is provided with a water outlet and a groove communicated with the water outlet, the shape of the groove is matched with that of the electrolysis module for mounting the electrolysis module, the bottom surface of the groove is connected with the water outlet, the bottom surface is an inclined surface, and one end, far away from the water outlet, of the bottom surface is higher than one end, close to the water outlet, of the bottom surface.

In one embodiment, the elastic conductive element comprises a needle, a first contact is arranged on the needle, and the electrolysis module comprises a second contact which is in interference connection with the first contact.

In one embodiment, the fruit and vegetable sterilizer further comprises a sealing part, the sealing part is provided with a second through hole matched with the elastic conductive element, the elastic conductive element is arranged in the second through hole in a penetrating mode, the sealing part is attached to the electrolysis module, and the sealing part is blocked in the first through hole.

In one embodiment, the fruit and vegetable sterilizer further comprises a fixing frame connected with the shell, the fixing frame is attached to one surface of the sealing part, which is far away from the electrolysis module, a third through hole is formed in the fixing frame, and the elastic conductive element penetrates through the third through hole.

In one embodiment, the fruit and vegetable sterilizer further comprises a wire and an external power supply, one end of the wire is clamped between the elastic conductive element and the inner wall of the third through hole, and the other end of the wire is connected to the external power supply.

In one embodiment, a fastening member is disposed on the elastic conductive element, and the fastening member is attached to a surface of the fixing frame away from the sealing component.

In one embodiment, the electrolysis module includes a cathode sheet, an anode sheet, and an insulating spacer provided between the cathode sheet and the anode sheet.

Above-mentioned fruit vegetables sterilizing machine has following beneficial effect at least:

(1) the fruit and vegetable sterilizing machine provided by the embodiment is characterized in that the electrolytic module is connected to the first inner wall of the shell in a buckling mode, and therefore the electrolytic module can be detached from the shell. Furthermore, a first through hole is formed in the first inner wall, and the elastic conductive element penetrates through the first through hole to abut against the electrolysis module. Thus, the electrolysis module is separated from the elastic conductive element only by pressing the elastic conductive element, and then the electrolysis module is taken out of the shell. So, the electrolysis module in this embodiment can take out at any time and wash or change in following the casing, is favorable to prolonging the life of fruit vegetables sterilizer, guarantees the electrolysis efficiency of fruit vegetables sterilizer.

(2) The fruit and vegetable sterilizing machine provided by the embodiment is provided with the sealing part attached to the electrolysis module, and the sealing part is plugged in the first through hole, so that water in the shell cannot flow out of the electrolysis module and the first through hole. The sealing component is arranged to effectively prevent water from flowing out from the first through hole in the shell, so that normal operation of electronic components in the fruit and vegetable disinfection machine is prevented from being influenced, the shell is favorably improved in sealing performance, and the service life of the fruit and vegetable disinfection machine is prolonged.

(3) The first inner wall is provided with a water outlet and a groove communicated with the water outlet, the shape of the groove is matched with that of the electrolysis module for installing the electrolysis module, and the bottom surface of the groove inclines towards the water outlet. So, the slope design is done to the grooved underside, and at fruit vegetables sterilizer drainage in-process, waste water can flow the outlet from the bottom surface of recess completely, and can not pile up in the recess, prevents effectively that waste water from storing up in the recess owing to can't arrange to the greatest extent, avoids having ponding to the influence that the electrolysis module caused in the recess, is favorable to improving the life of electrolysis module, reduces bacterial growing, ensures the sanitation and hygiene in the fruit vegetables sterilizer.

Drawings

Fig. 1 is a schematic structural view illustrating an electrolytic module connected to a fixing frame according to an embodiment of the present invention;

FIG. 2 is an exploded view of the structure shown in FIG. 1;

FIG. 3 is a schematic top view of the structure shown in FIG. 1;

FIG. 4 is a schematic cross-sectional view of the structure shown in FIG. 3 taken along line A-A;

FIG. 5 is an enlarged schematic view of the structure shown in FIG. 4 at P;

fig. 6 is a schematic structural diagram of an electrolysis module according to an embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of the structure of FIG. 6 taken along line B-B;

fig. 8 is a schematic structural diagram of a housing according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a housing and a base according to an embodiment of the present invention.

Description of reference numerals: 100. an electrolysis module; 110. a first engaging member; 120. a second engaging member; 130. a second contact; 140. a positive electrode sheet; 150. a cathode plate; 160. an insulating spacer; 170. an upper cover; 180. a lower cover; 200. a housing; 210. a first inner wall; 211. a first card slot; 212. a second card slot; 213. a first through hole; 214. a second threaded post; 215. a water outlet; 216. a groove; 217. a bottom surface; 300. an elastic conductive element; 310. a needle head; 320. needle tail; 330. a first contact; 400. a sealing member; 410. a second through hole; 500. a fixed mount; 510. a third through hole; 520. a first threaded post; 600. a base; 610. a drain pipe; 700. a fastener.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention can be embodied in many different forms other than those specifically described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit and scope of the invention, and it is therefore not to be limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The embodiment provides a fruit and vegetable sterilizer with the advantage of easy disassembly of an electrolysis module, which will be described in detail with reference to the accompanying drawings.

In one embodiment, referring to fig. 1 and 4, a fruit and vegetable sterilizer includes an electrolytic module 100, a housing 200, and a resilient conductive element 300. The housing 200 comprises a first inner wall 210, the electrolysis module 100 is arranged in the housing 200, and the electrolysis module 100 is connected to the first inner wall 210 in a snap-fit manner. The first inner wall 210 is provided with a first through hole 213, and the elastic conductive element 300 is abutted against the electrolytic module 100 through the first through hole 213.

The fruit and vegetable sterilizer provided by the embodiment is configured such that the electrolysis module 100 is detachable from the housing 200 by snapping the electrolysis module 100 to the first inner wall 210 of the housing 200. Further, the first inner wall 210 is provided with a first through hole 213, and the elastic conductive element 300 is abutted against the electrolytic module 100 through the first through hole 213. Thus, the elastic conductive member 300 is simply pushed to separate the electrolytic module 100 from the elastic conductive member 300, and then the electrolytic module 100 is taken out of the case 200. Therefore, the electrolytic module 100 in this embodiment can be taken out of the housing 200 for cleaning or replacement at any time, which is beneficial to prolonging the service life of the fruit and vegetable sterilizer and ensuring the electrolytic efficiency of the fruit and vegetable sterilizer.

Further, in order to improve the disinfection efficiency of the fruit and vegetable disinfection machine, a plurality of electrolysis modules 100 can be installed in the fruit and vegetable disinfection machine.

In one embodiment, referring to fig. 1 to 3 and fig. 7, the electrolytic module 100 is provided with a first engaging member 110 and a second engaging member 120, a first engaging groove 211 and a second engaging groove 212 are provided on the first inner wall 210 corresponding to the first engaging member 110 and the second engaging member 120, the first engaging groove 211 is engaged with the first engaging member 110, and the second engaging groove 212 is engaged with the second engaging member 120. Specifically, the first engaging member 110 is a buckle, the second engaging member 120 is a spring buckle, and the buckle and the spring buckle are respectively disposed at two ends of the electrolytic module 100. When the electrolytic module 100 is installed on the first inner wall 210, the fastening member is first fastened to the first fastening groove 211 to fix one end of the electrolytic module 100. And then the elastic buckle is moved towards the direction close to the buckle, and then the elastic buckle is loosened, so that the elastic buckle is clamped on the second clamping groove 212 under the action of the elastic force of the elastic buckle, and the connection between the electrolytic module 100 and the shell 200 can be realized. When the electrolytic module 100 is mounted on the first inner wall 210, it is necessary to simultaneously mount the electrolytic module 100 on the elastic conductive member 300. When detaching the electrolysis module 100 from the first inner wall 210, the elastic conductive member 300 is first pushed, so that the electrolysis module 100 and the elastic conductive member 300 are separated. The latch is moved toward the direction close to the buckle, so that the latch is separated from the second slot 212. Finally, the electrolytic module 100 is moved away from the latch, so that the latch is disengaged from the first latching groove 211. In this way, separation of the electrolytic module 100 and the case 200 can be achieved.

As another optional embodiment, the electrolytic module 100 is provided with a first engaging groove 211 and a second engaging groove 212, the first inner wall 210 is provided with a first engaging member 110 and a second engaging member 120 corresponding to the first engaging groove 211 and the second engaging groove 212, the first engaging groove 211 is engaged with the first engaging member 110, and the second engaging groove 212 is engaged with the second engaging member 120. Specifically, the first engaging member 110 is a buckle, the second engaging member 120 is a spring buckle, and both the buckle and the spring buckle are disposed on the first inner wall 210. When the electrolytic module 100 is installed on the first inner wall 210, the buckle on the first inner wall 210 is firstly clamped in the first clamping groove 211 of the electrolytic module 100 for fixing one end of the electrolytic module 100. Then the elastic buckle is moved towards the direction far away from the buckle, and then the elastic buckle is loosened, so that the elastic buckle is clamped in the second clamping groove 212 on the electrolysis module 100 under the action of the elastic force of the elastic buckle, and the connection of the electrolysis module 100 and the shell 200 can be realized. When the electrolytic module 100 is mounted on the first inner wall 210, it is necessary to simultaneously connect the electrolytic module 100 to the elastic conductive member 300. When detaching the electrolysis module 100 from the first inner wall 210, the elastic conductive member 300 is first pushed, so that the electrolysis module 100 and the elastic conductive member 300 are separated. The snap fastener is moved away from the snap fastener, so that the snap fastener is separated from the second slot 212 of the electrolytic module 100. Finally, the electrolytic module 100 is moved away from the latch, so that the latch on the first inner wall 210 is disengaged from the first engaging groove 211. In this way, separation of the electrolytic module 100 and the case 200 can be achieved.

In one embodiment, referring to fig. 4, 5, 7 and 8, the first inner wall 210 is provided with a drain opening 215 and a groove 216 communicating with the drain opening 215, the shape of the groove 216 and the shape of the electrolytic module 100 being matched for mounting the electrolytic module 100. Specifically, when the first engaging member 110 is a buckle, the second engaging member 120 is a spring buckle, and the buckle and the spring buckle are respectively disposed at two ends of the electrolytic module 100, the two opposite sidewalls of the groove 216 are respectively disposed with a first engaging groove 211 and a second engaging groove 212. When the electrolytic module 100 is mounted in the groove 216 of the first inner wall 210, the fastener is first fastened in the first fastening groove 211 to fix one end of the electrolytic module 100. And then the elastic buckle is moved towards the direction close to the buckle, and then the elastic buckle is loosened, so that the elastic buckle is clamped on the second clamping groove 212 under the action of the elastic force of the elastic buckle, and the connection between the electrolytic module 100 and the shell 200 can be realized. When the electrolytic module 100 is mounted in the groove 216 of the first inner wall 210, it is also necessary to simultaneously mount the electrolytic module 100 on the elastic conductive member 300. When the electrolysis module 100 is detached from the recess 216 of the first inner wall 210, the elastic conductive member 300 is first pushed, so that the electrolysis module 100 and the elastic conductive member 300 are separated. The latch is moved toward the direction close to the buckle, so that the latch is separated from the second slot 212. Thereafter the electrolysis module 100 is moved away from the catch so that the catch disengages from the first catch 211 and finally the electrolysis module 100 is removed from the recess 216 in the first inner wall 210.

Similarly, the electrolytic module 100 may also be provided with a first engaging groove 211 and a second engaging groove 212, two opposite sidewalls of the groove 216 are provided with a buckle and an elastic buckle corresponding to the first engaging groove 211 and the second engaging groove 212, the first engaging groove 211 is engaged with the buckle, and the second engaging groove 212 is engaged with the elastic buckle. Specifically, when the electrolytic module 100 is installed in the groove 216, the fastening of the sidewall of the groove 216 is firstly fastened in the first fastening groove 211 of the electrolytic module 100 for fixing one end of the electrolytic module 100. Then the elastic buckle is moved towards the direction far away from the buckle, and then the elastic buckle is loosened, so that the elastic buckle is clamped in the second clamping groove 212 on the electrolysis module 100 under the action of the elastic force of the elastic buckle, and the connection of the electrolysis module 100 and the shell 200 can be realized. When the electrolysis module 100 is detached from the recess 216, the elastic conductive member 300 is first pressed, so that the electrolysis module 100 and the elastic conductive member 300 are separated. The snap fastener is moved away from the snap fastener, so that the snap fastener is separated from the second slot 212 of the electrolytic module 100. Finally, the electrolytic module 100 is moved away from the latch, so that the latch on the first inner wall 210 is disengaged from the first engaging groove 211. In this way, separation of the electrolytic module 100 and the case 200 can be achieved.

Further, referring to fig. 7, the bottom 217 of the groove 216 is connected to the drain opening 215. Specifically, the bottom surface 217 of the groove 216 is an inclined surface that is inclined toward the drain opening 215. The end of the inclined surface remote from the drain opening 215 is higher than the end of the inclined surface near the drain opening 215. Like this, at fruit vegetables sterilizer drainage in-process, waste water can flow outlet 215 from the bottom of recess 216 completely, and can not amass in recess 216, effectively prevents waste water and piles up in recess 216 owing to unable the exhaustion, avoids having the influence that ponding caused electrolysis module 100 in the recess 216, is favorable to improving electrolysis module 100's life, reduces bacterial growing, ensures the sanitation and hygiene in the fruit vegetables sterilizer.

In one embodiment, referring to fig. 2, 4 and 5, the elastic conductive element 300 includes a pin 310, the pin 310 is provided with a first contact 330, the electrolytic module 100 includes a second contact 130, and the second contact 130 is in interference connection with the first contact 330.

Specifically, referring to fig. 5 and 6, at least one anode sheet 140 and at least one cathode sheet 150 are provided in the electrolytic module 100, and an insulating spacer 160 is provided between the anode sheet 140 and the cathode sheet 150. The anode tab 140, the cathode tab 150, and the insulating spacer 160 are disposed in a cavity formed by the upper cover 170 and the lower cover 180 in a butt joint manner. When the electrolysis module 100 is in a power-on state, an electric field is generated between the anode electrode sheet 140 and the cathode electrode sheet 150, so that the electrolysis of the water body is realized, and further, the pesticide residues on the surfaces of the fruits and vegetables are removed. Further, the second contact 130 of the electrolysis module 100 is disposed corresponding to the first through hole 213 of the first inner wall 210, such that the elastic conductive element 300 is in contact connection with the first contact 330 and the second contact 130 disposed on the needle 310, thereby achieving the connection between the electrolysis module 100 and the elastic conductive element 300. When the elastic conductive element 300 is energized, current is transmitted to the electrolysis module 100 along the first contact 330 and the second contact 130. Thus, the electrolytic module 100 can be brought into an electrolytic water state. The elastic conductive element 300 may be a spring pin, or may be other elastic hardware, as long as it can realize the power transmission to the electrolysis module 100.

Further, the fruit and vegetable sterilizer with the electrolysis module 100 works as follows: the electrolysis module 100 decomposes water molecules to form hydrogen cations (H +) and oxygen anions (O-), thereby forming hydroxyl radicals (OH-), and hydrogen peroxide (H-) is also formed under the action of current₂O₂). The hydroxyl radical is very unstable and is oxidized to water (H) by drawing hydrogen cations (H +) from the bacterial cell wall₂O), the bacteria without hydrogen ions are oxidized into harmless substances, and meanwhile, the hydroxyl has super strong oxidizing capability, so that organic matters which are difficult to decompose can be quickly oxidized, and various organic matters or inorganic matters in water can be decomposed, sterilized, disinfected and purified. Thus, the disinfection object can be disinfected and disinfected only at the part which can be contacted with water. In addition, hydroxide ions and oxygen anions formed by the interaction of current in water pass throughAfter the sterilization and disinfection process, the water is oxidized and reduced into water, and the water has no secondary pollution and can be recycled and electrolyzed.

In an embodiment, referring to fig. 1, fig. 2 and fig. 4, the fruit and vegetable sterilizer further includes a sealing member 400, the sealing member 400 is provided with a second through hole 410 matching with the elastic conductive element 300, the elastic conductive element 300 is disposed in the second through hole 410 in a penetrating manner, the sealing member 400 is attached to the electrolytic module 100, and the sealing member 400 is blocked in the first through hole 213. Specifically, the size of the second through hole 410 is the same as the thickness of the portion of the elastic conductive element 300 inserted into the second through hole 410, and the elastic conductive element 300 can completely block the second through hole 410, thereby effectively preventing the water in the housing 200 from flowing out of the second through hole 410 of the sealing member 400. In addition, the sealing member 400 and the first through hole 213 have the same shape, and the sealing member 400 may be plugged in the first through hole 213 without leaving a gap, thereby effectively plugging the first through hole 213 and preventing water in the case 200 from flowing out of the first through hole 213. Wherein, the sealing member 400 can be a silica gel ring or a waterproof rubber ring made of other materials.

In the fruit and vegetable sterilizer provided by the embodiment, the sealing member 400 is attached to the electrolytic module 100, and the sealing member 400 is plugged in the first through hole 213, so that water in the housing 200 cannot flow out from the electrolytic module 100 and the first through hole 213. The sealing member 400 is disposed to effectively prevent water from flowing from the first through hole 213 in the housing 200 to the electronic component outside the housing 200, which may affect the normal operation of the electronic component. The sealing part 400 is also beneficial to improving the sealing performance of the shell 200 and prolonging the service life of the fruit and vegetable sterilizing machine.

In an embodiment, referring to fig. 1 to 4 and fig. 8, the fruit and vegetable sterilizer further includes a fixing frame 500 connected to the housing 200, the fixing frame 500 is attached to a surface of the sealing member 400 away from the electrolytic module 100, the fixing frame 500 is provided with a third through hole 510, and the elastic conductive element 300 passes through the third through hole 510. Specifically, the elastic conductive member 300 includes a pin tail 320 disposed opposite the pin head 310, and the pin tail 320 passes through the third through hole 510. The middle of the fixing frame 500 is provided with a third through hole 510, and the size of the third through hole 510 is equal to the thickness of the needle tail 320 of the elastic conductive element 300. The third through hole 510 is communicated with the second through hole 410 of the sealing member 400, the elastic conductive element 300 is sequentially inserted into the second through hole 410 and the third through hole 510, and the needle tail 320 of the elastic conductive element 300 passes through the third through hole 510 and is exposed outside. The edge of the fixing frame 500 is provided with a first threaded column 520, correspondingly, the surface of the housing 200 facing the fixing frame 500 is also provided with a second threaded column 214 corresponding to the first threaded column 520, and the insides of the first threaded column 520 and the second threaded column 214 are both threaded holes. Thus, the screws pass through the first and second screw posts 520 and 214 and are screwed with the first and second screw posts 520 and 214, so that the fixing frame 500 and the housing 200 can be fixedly connected together.

Further, the fruit and vegetable sterilizer further comprises a wire and an external power supply (not shown), wherein one end of the wire is clamped between the needle tail 320 and the inner wall of the third through hole 510, and the other end of the wire is connected to the external power supply. To securely fasten the wire to the resilient conductive element 300, the pin tail 320 is also provided with a fastener 700. Specifically, the fastener 700 is a nut and a wire is also threaded between the nut and the pin tail 320. When the nut and pin tail 320 are threaded, the wire is pressed against and secured to the resilient conductive element 300. In addition, after the nut is screwed on the needle tail 320, pressing force can be applied to the fixing frame 500, so that the fixing frame 500 is pressed on the sealing part 400, the effect of the sealing part 400 on closing the first through hole 213 is better, water can be effectively prevented from flowing out of the first through hole 213 in the shell 200, the sealing performance of the shell 200 is further improved, and the service life of the fruit and vegetable sterilizer is prolonged.

In one embodiment, referring to fig. 8, the fruit and vegetable sterilizer further includes a base 600. The base 600 is disposed outside the housing 200 and detachably coupled to the housing 200. Specifically, the base 600 is disposed outside the first inner wall 210 and is in snap-fit connection with the housing 200. When the fruit and vegetable sterilizer needs to be cleaned, the shell 200 can be cleaned only by separating the base 600 from the shell 200. Further, the fixing frame 500 and the elastic conductive member 300 are also disposed in the space between the base 600 and the first inner wall 210. The base 600 is internally provided with a control panel which is connected with an external power supply, and people can control the working state of the fruit and vegetable sterilizer through the control panel, for example, whether the electrolysis module 100 is in the electrolysis state or not, so that the operation is convenient.

Further, referring to fig. 7 and 8, a drain pipe 610 is further disposed in the base 600, one end of the drain pipe 610 is connected to the drain port 215, and the other end of the drain pipe 610 is communicated with the outside of the fruit and vegetable sterilizer. Thus, when the fruit and vegetable disinfection machine drains, water can flow through the drain pipe 610 from the drain port 215 and drain to the outside of the fruit and vegetable disinfection machine.

The embodiment of the utility model provides a fruit vegetables sterilizing machine is through with electrolysis module 100 buckle connection in the first inner wall 210 of casing 200, and like this, electrolysis module 100 can be dismantled from casing 200. Further, the first inner wall 210 is provided with a first through hole 213, and the elastic conductive element 300 passes through the first through hole 213 to be connected to the electrolytic module 100. Thus, the elastic conductive member 300 is simply pushed to separate the electrolytic module 100 from the elastic conductive member 300, and then the electrolytic module 100 is taken out of the case 200. Therefore, the electrolytic module 100 in this embodiment can be taken out of the housing 200 for cleaning or replacement at any time, which is beneficial to prolonging the service life of the fruit and vegetable sterilizer and ensuring the electrolytic efficiency of the fruit and vegetable sterilizer.

In addition, the fruit and vegetable sterilizer provided by the embodiment is arranged by attaching the sealing member 400 to the electrolysis module 100 and plugging the sealing member 400 in the first through hole 213, so that water in the housing 200 cannot flow out from the electrolysis module 100 and the first through hole 213. The sealing part 400 can effectively prevent water from flowing out from the first through hole 213 in the shell 200, thereby avoiding influencing the normal operation of electronic components in the fruit and vegetable sterilizer, being beneficial to improving the sealing performance of the shell 200 and prolonging the service life of the fruit and vegetable sterilizer. Further, a bottom surface 217 of the recess 216 is connected to the drain port 215, and the bottom surface 217 of the recess 216 is an inclined surface inclined toward the drain port 215. The end of the inclined surface remote from the drain opening 215 is higher than the end of the inclined surface near the drain opening 215. Like this, at fruit vegetables sterilizer drainage in-process, waste water can flow outlet 215 from the bottom of recess 216 completely, and can not amass in recess 216, effectively prevents waste water and piles up in recess 216 owing to unable the exhaustion, avoids having the influence that ponding caused electrolysis module 100 in the recess 216, is favorable to improving electrolysis module 100's life, reduces bacterial growing, ensures the sanitation and hygiene in the fruit vegetables sterilizer.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A fruit and vegetable sterilizer is characterized by comprising:

an electrolysis module;

the electrolytic module is arranged in the shell, the shell comprises a first inner wall, and the electrolytic module is connected to the first inner wall in a buckling mode; and

the first inner wall of the elastic conductive element is provided with a first through hole, and the elastic conductive element penetrates through the first through hole and abuts against the electrolytic module.

2. The fruit and vegetable sterilizing machine according to claim 1, wherein a first clamping part and a second clamping part are arranged on the electrolytic module, a first clamping groove and a second clamping groove are arranged on the first inner wall corresponding to the first clamping part and the second clamping part, the first clamping groove is in clamping fit with the first clamping part, and the second clamping groove is in clamping fit with the second clamping part;

or, a first clamping groove and a second clamping groove are formed in the electrolysis module, a first clamping part and a second clamping part are arranged on the first inner wall corresponding to the first clamping groove and the second clamping groove, the first clamping groove is in clamping fit with the first clamping part, and the second clamping groove is in clamping fit with the second clamping part.

3. The fruit and vegetable sterilizer of claim 2, wherein the first engaging member is a buckle, the second engaging member is a snap, and the buckle and the snap are respectively disposed at two ends of the electrolytic module.

4. The fruit and vegetable sterilizing machine as claimed in claim 1, wherein the first inner wall is provided with a water outlet and a groove communicated with the water outlet, the shape of the groove is matched with the shape of the electrolysis module for installing the electrolysis module, the bottom surface of the groove is connected to the water outlet, the bottom surface is an inclined surface, and one end of the bottom surface, which is far away from the water outlet, is higher than one end of the bottom surface, which is close to the water outlet.

5. The fruit and vegetable sterilizer of claim 1, wherein the resilient conductive element comprises a needle having a first contact disposed thereon, and the electrolysis module comprises a second contact in interference engagement with the first contact.

6. The fruit and vegetable sterilizer of claim 1, further comprising a sealing member, wherein the sealing member defines a second through hole matching with the elastic conductive element, the elastic conductive element is disposed in the second through hole, the sealing member is attached to the electrolytic module, and the sealing member blocks the first through hole.

7. The fruit and vegetable sterilizing machine according to claim 6, further comprising a fixing frame connected with the housing, wherein the fixing frame is attached to a surface of the sealing member facing away from the electrolytic module, the fixing frame is provided with a third through hole, and the elastic conductive element passes through the third through hole.

8. The fruit and vegetable sterilizer of claim 7, further comprising a wire and an external power source, wherein one end of the wire is clamped between the inner wall of the third through hole and the elastic conductive element, and the other end of the wire is connected to the external power source.

9. The fruit and vegetable sterilizer of claim 7, wherein the resilient conductive element is provided with a fastener, and the fastener is attached to a surface of the holder away from the sealing member.

10. The fruit and vegetable sterilizer of any one of claims 1 to 9, wherein the electrolysis module comprises a female electrode sheet, a male electrode sheet, and an insulating spacer provided between the female electrode sheet and the male electrode sheet.

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