CN215873381U

CN215873381U - Fruit and vegetable cleaning purifier

Info

Publication number: CN215873381U
Application number: CN202121320551.8U
Authority: CN
Inventors: 齐斌
Original assignee: Zhongshan Yahong Electrical Appliance Co ltd
Current assignee: Zhongshan Yahong Electrical Appliance Co ltd
Priority date: 2021-06-11
Filing date: 2021-06-11
Publication date: 2022-02-22
Anticipated expiration: 2031-06-11

Abstract

The utility model discloses a fruit and vegetable cleaning purifier, which comprises a host and a wireless charging seat, wherein the host comprises a host shell, an ionization generator, a rechargeable battery, a circuit board and a wireless charging receiving coil, a generator support and a sealing cavity are arranged in the host shell, the rechargeable battery, the circuit board and the wireless charging receiving coil are fixed in the sealing cavity, the ionization generator is fixed on the generator support, the host shell is provided with a first water inlet, the ionization generator and the rechargeable battery are electrically connected with the circuit board, the rechargeable battery is electrically connected with the wireless charging receiving coil, and a waterproof sealing structure is arranged at the connection part of the ionization generator and the circuit board; the wireless charging seat comprises a wireless charging shell, a wireless charging output coil and a charging panel, wherein the wireless charging output coil and the charging panel are arranged in the wireless charging shell, and the wireless charging output coil is electrically connected with the charging panel. This fruit vegetables cleaning purifier conveniently carries, can also carry out wireless charging.

Description

Fruit and vegetable cleaning purifier

Technical Field

The utility model relates to the technical field of fruit and vegetable disinfection and cleaning, in particular to a fruit and vegetable cleaning purifier.

Background

With the enhancement of health consciousness, the safety requirements of people on food materials are higher and higher. Although fruit and vegetable cleaning and purifying products are more and more, most cleaning and purifying methods not only include electrolytic hydroxyl water, ozone, ultrasound, bubbles and the like, but ozone destroys nutrition of food materials, so that electrolysis is more and more applied to fruit and vegetable purifiers. However, the existing fruit and vegetable purifier is large and heavy, cannot be carried about, generally adopts a traditional wired charging mode, and is not very convenient to use.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a fruit and vegetable cleaning purifier which can be carried about and is convenient to use,

the purpose of the utility model is realized by adopting the following technical scheme:

a fruit and vegetable cleaning purifier comprises a host and a wireless charging seat, wherein the host comprises a host shell, an ionization generator, a rechargeable battery, a circuit board and a wireless charging receiving coil, a generator support and a sealing cavity are arranged in the host shell, the rechargeable battery, the circuit board and the wireless charging receiving coil are fixed in the sealing cavity, the ionization generator is fixed on the generator support, the host shell is provided with a first water inlet, the ionization generator and the rechargeable battery are electrically connected with the circuit board, the rechargeable battery is electrically connected with the wireless charging receiving coil, and a waterproof sealing structure is arranged at the connection part of the ionization generator and the circuit board; the wireless charging seat comprises a wireless charging shell, a wireless charging output coil and a charging panel, wherein the wireless charging output coil and the charging panel are arranged in the wireless charging shell, and the wireless charging output coil is electrically connected with the charging panel.

Furthermore, the ionization generator comprises a positive ionization electrode plate, a negative ionization electrode plate and an insulating spacer, the positive ionization electrode plate and the negative ionization electrode plate are separated by the insulating spacer to form an upper-middle-lower sandwich structure and are arranged on the generator support, the generator support is provided with a first conductive channel and a second conductive channel which are communicated with the sealing cavity, the positive ionization electrode plate is connected with a first conductive piece, the negative ionization electrode plate is connected with a second conductive piece, the first conductive piece penetrates through the first conductive channel to be electrically connected with the circuit board, and the second conductive piece penetrates through the second conductive channel to be electrically connected with the circuit board.

Furthermore, the first conductive piece is fixed in the first conductive channel, the upper end of the first conductive piece is detachably connected with the positive ionization electrode plate through a first conductive connecting piece, the lower end of the first conductive piece is detachably connected with the circuit board through a second conductive connecting piece, the second conductive piece is fixed in the second conductive channel, the upper end of the second conductive piece is detachably connected with the negative ionization electrode plate through a third conductive connecting piece, and the lower end of the second conductive piece is detachably connected with the circuit board through a fourth conductive connecting piece.

Furthermore, the first conductive piece and the second conductive piece are both conductive studs, the upper end and the lower end of each conductive stud are both provided with internal threads, and the first conductive connecting piece, the second conductive connecting piece, the third conductive connecting piece and the fourth conductive connecting piece are all conductive locking nuts; the positive ionization electrode slice is provided with a first avoidance hole, the negative ionization electrode slice is provided with a second avoidance hole, the insulating spacer is provided with a third avoidance hole, the first conductive connecting piece penetrates through the first avoidance hole and the third avoidance hole and then is in threaded connection with the upper end of the first conductive piece, the nut is in butt connection with the upper end of the positive ionization electrode slice, the third conductive connecting piece penetrates through the second avoidance hole and then is in threaded connection with the upper end of the second conductive piece, and the nut is in butt connection with the upper end of the negative ionization electrode slice.

Furthermore, a first sealing ring is arranged in the first conductive channel, an inner ring of the first sealing ring is tightly attached to the second conductive connecting piece, and an outer ring of the first sealing ring is tightly attached to the inner wall of the first conductive channel; the waterproof sealing structure is characterized in that a second sealing ring is arranged in the second conductive channel, the inner ring of the second sealing ring is tightly attached to the fourth conductive connecting piece, the outer ring of the second sealing ring is tightly attached to the inner wall of the second conductive channel, and the first sealing ring and the second sealing ring form the waterproof sealing structure.

Furthermore, the ionization generator further comprises a fixing mesh enclosure, a fixing groove matched with the fixing mesh enclosure is formed in the upper end face of the generator support, and the ionization generator is fixed in the fixing mesh enclosure.

Furthermore, the main machine shell comprises an upper shell and a lower shell which are connected in a buckling mode, a water inlet mesh enclosure is arranged at the top of the upper shell, a plurality of first water inlet holes are formed in the water inlet mesh enclosure, and a plurality of second water inlet holes are formed in the side wall of the lower shell; the internal bounding wall that installs of inferior valve, the generator support is located the top of bounding wall, the bounding wall with the generator support encloses mutually and closes formation sealed cavity, the bounding wall with be equipped with the silica gel sealing ring between the junction of generator support.

Further, be equipped with the switch module on the screen panel of intaking, the switch module includes switch button and button silica gel, the generator support be equipped with the electrically conductive passageway of third of sealed cavity intercommunication, button silica gel is located in the electrically conductive passageway of third and with the electrically conductive passageway of third seals up the cooperation, button silica gel upper end with the switch keying is connected, button silica gel lower extreme with the circuit board is connected.

Further, a balancing weight is installed in the sealing chamber.

Further, the charging plate is electrically connected with a USB interface.

Compared with the prior art, the utility model has the beneficial effects that:

when the fruit and vegetable cleaning purifier is used for cleaning fruits and vegetables, the fruits and vegetables are firstly placed in a cleaning container, then water is poured into the cleaning container, the host is started, then the host is placed into the cleaning container, the water enters the shell of the host from the first water inlet hole, the ionization generator ionizes the water to generate hydrogen ions and hydroxyl ions, so that hydroxyl radicals are generated, and the fruits and vegetables are cleaned and purified by sterilizing and removing pesticide residues, hormones and the like through the strong oxidizing capability of the hydroxyl radicals. When the host computer needs to charge, the wireless charging output coil and the wireless charging receiving coil are matched to wirelessly charge the rechargeable battery, and the use is convenient. The fruit and vegetable cleaning purifier is small in size and provided with the wireless charging seat, so that the fruit and vegetable cleaning purifier is convenient to carry about and can also be used for conveniently and wirelessly charging the host.

Drawings

FIG. 1 is an exploded view of a fruit and vegetable washing and purifying device provided by the utility model;

FIG. 2 is a cross-sectional view of a fruit and vegetable washing and purifying device according to the present invention;

FIG. 3 is a second cross-sectional view of the fruit and vegetable washing and purifying device provided by the present invention;

FIG. 4 is an exploded view of an ionization generator of the fruit and vegetable cleaning purifier provided by the utility model;

FIG. 5 is a schematic view of an assembly of a fixing mesh enclosure and an ionization generator of the fruit and vegetable cleaning purifier according to the present invention;

in the figure: 10. a host; 101. an upper housing; 102. a lower housing; 103. an ionization generator; 1031. a positive ionization electrode plate; 1032. an insulating spacer; 1033. a negative ionization electrode sheet; 1034. a first conductive member; 1035. a second conductive member; 1036. a first conductive connector; 1037. a second conductive connection; 1038. a third conductive connection; 1039. a fourth conductive connection; 104. a rechargeable battery; 105. a circuit board; 106. a wireless charging receiving coil; 107. sealing the chamber; 108. a first water inlet hole; 109. a water inlet mesh enclosure; 110. a light guide ring; 111. enclosing plates; 112. a silica gel sealing ring; 113. a balancing weight; 114. switching a key; 115. a generator support; 116. a first seal ring; 117. a second seal ring; 118. a second water inlet hole; 119. key silica gel; 120. fixing a mesh enclosure; 20. a wireless charging stand; 201. a wireless charging housing; 202. a wireless charging output coil; 203. a charging plate; 204. and a charging wire.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," "one," "another," and the like are used to distinguish similar elements, and these terms and other similar terms are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations. Corresponding reference numerals are used throughout the figures to indicate corresponding or corresponding elements (e.g., elements identified as "1 XX" and "2 XX" are structurally identical and functionally similar).

As shown in fig. 1-5, the fruit and vegetable cleaning purifier provided by the present invention comprises a main unit 10 and a wireless charging seat 20, wherein the main unit 10 comprises a main unit housing, an ionization generator 103, a rechargeable battery 104, a circuit board 105 and a wireless charging receiving coil 106, a generator support 115 and a sealed chamber 107 are arranged in the main unit housing, the rechargeable battery 104, the circuit board 105 and the wireless charging receiving coil 106 are fixed in the sealed chamber 107, the ionization generator 103 is fixed on the generator support 115, the main unit 10 housing is provided with a first water inlet 108, the ionization generator 103 and the rechargeable battery 104 are electrically connected to the circuit board 105, the rechargeable battery 104 is electrically connected to the wireless charging receiving coil 106, and a waterproof sealing structure is arranged at the connection between the ionization generator 103 and the circuit board 105; the wireless charging stand 20 includes a wireless charging housing 201, a wireless charging output coil 202 and a charging panel 203, the wireless charging output coil 202 and the charging panel 203 are disposed in the wireless charging housing 201, and the wireless charging output coil 202 is electrically connected to the charging panel 203.

The use principle of the utility model is as follows: when using this fruit vegetables cleaning purification ware to wash the fruit vegetables, put fruit vegetables earlier in a cleaning container, then to pouring water in the cleaning container, start host computer 10, put into cleaning container with this host computer 10 in succession, water gets into in the host computer casing from first inlet opening 108, make ionization generator 103 carry out the ionization with water, produce hydrogen ion and hydroxyl ion, thereby produce the hydroxyl radical, disinfect through the strong oxidizing power of hydroxyl radical, get rid of the pesticide residue, hormone etc., realize the cleaning purification to the fruit vegetables. Through set up wireless receiving coil 106 that charges in host computer casing, set up wireless output coil 202 that charges in wireless charging seat 20, when host computer 10 electric quantity is not enough, only need place host computer 10 on wireless charging seat 20 just can carry out wireless charging, convenient to use to host computer 10. The fruit and vegetable cleaning purifier is small in size and provided with the wireless charging seat 20, so that the fruit and vegetable cleaning purifier is convenient to carry about and can also be used for conveniently and wirelessly charging the host 10.

It should be noted that the wireless charging principle of the present embodiment is the prior art, and the principle thereof is not described herein again.

Preferably, the ionization generator 103 comprises a positive ionization electrode plate 1031, a negative ionization electrode plate 1033 and an insulating spacer 1032, the insulating spacer 1032 separates the positive ionization electrode plate 1031 and the negative ionization electrode plate 1033 to form an upper, middle and lower sandwich structure and is arranged on the generator support 115, the generator support 115 is provided with a first conductive channel and a second conductive channel which are communicated with the sealed chamber 107, the positive ionization electrode plate 1031 is connected with a first conductive piece 1034, the negative ionization electrode plate 1033 is connected with a second conductive piece 1035, the first conductive piece 1034 penetrates through the first conductive channel to be electrically connected with the circuit board 105, and the second conductive piece 1035 penetrates through the second conductive channel to be electrically connected with the circuit board 105.

In the present embodiment, the positive ionization electrode pad 1031 and the negative ionization electrode pad 1033 are connected to the circuit board 105 through the first conductive piece 1034 and the second conductive piece 1035, respectively, so that the circuit board 105 transmits a voltage to the positive ionization electrode pad 1031 and the negative ionization electrode pad 1033 through the first conductive piece 1034 and the second conductive piece 1035, respectively. The positive ionization electrode plate 1031 and the negative ionization electrode plate 1033 are preferably metal titanium meshes, and the electrolysis effect is good; the insulating spacer 1032 is of a frame structure as a whole, and a connecting rib is arranged at the center of the insulating spacer, so that the phenomenon of short circuit caused by adhesion of the positive ionization electrode plate 1031 and the negative ionization electrode plate 1033 due to deformation of the positive ionization electrode plate 1031 and/or the negative ionization electrode plate 1033 is avoided.

Specifically, the first conductive piece 1034 is fixed in a first conductive channel, the upper end of the first conductive piece 1034 is detachably connected to the positive ionization electrode plate 1031 through a first conductive connector 1036, the lower end of the first conductive piece 1034 is detachably connected to the circuit board 105 through a second conductive connector 1037, the second conductive piece 1035 is fixed in a second conductive channel, the upper end of the second conductive piece 1035 is detachably connected to the negative ionization electrode plate 1033 through a third conductive connector 1038, and the lower end of the second conductive piece 1035 is detachably connected to the circuit board 105 through a fourth conductive connector 1039.

Specifically, the first conductive piece 1034 and the second conductive piece 1035 are both conductive studs, the upper and lower ends of each conductive stud are both provided with internal threads, and the first conductive connector 1036, the second conductive connector 1037, the third conductive connector 1038, and the fourth conductive connector 1039 are all conductive lock nuts; positive ionization electrode piece 1031 is equipped with the first hole of dodging, it dodges the hole to be equipped with the second on the negative ionization electrode piece 1033, it dodges the hole to be equipped with the third on the insulating spacer 1032, first electrically conductive connecting piece 1036 passes first dodge hole and third dodge behind the hole with first electrically conductive piece 1034 upper end threaded connection, and the nut butt is in on the up end of positive ionization electrode piece 1031, third electrically conductive connecting piece 1038 pass the second dodge behind the hole with second electrically conductive piece 1035 upper end threaded connection, and the nut butt is in on the up end of negative ionization electrode piece 1033.

In this embodiment, a nut of the first conductive connecting member 1036 connected to the positive ionization electrode plate 1031 abuts against an upper end surface of the positive ionization electrode plate 1031, so that the first conductive member 1034 supplies power to the positive ionization electrode plate 1031, and the first conductive connecting member 1036 passes through the first avoiding hole and the third avoiding hole, thereby preventing the first conductive connecting member 1036 from contacting and conducting with the negative ionization electrode plate 1033. Similarly, the nut of the third conductive connector 1038 connected to the negative ionization electrode pad 1033 abuts against the upper end surface of the negative ionization electrode pad 1033, so that the third conductive member supplies power to the positive ionization electrode pad 1031, and the third conductive connector 1038 passes through the second avoiding hole, thereby preventing the third conductive connector 1038 from contacting and conducting with the positive ionization electrode pad 1031.

Preferably, a first sealing ring 116 is arranged in the first conductive channel, an inner ring of the first sealing ring 116 is tightly attached to the second conductive connecting piece 1037, and an outer ring of the first sealing ring 116 is tightly attached to an inner wall of the first conductive channel; be equipped with second sealing washer 117 in the electrically conductive passageway of second, the inner circle of second sealing washer 117 with the closely laminating of fourth electrically conductive connecting piece 1039, the outer lane of second sealing washer 117 with the inner wall of the electrically conductive passageway of second closely laminates, first sealing washer 116 and second sealing washer 117 form waterproof seal structure. By providing the first sealing ring 116 and the second sealing ring 117, it is ensured that water does not flow into the sealing chamber 107 from the first conductive path and the second conductive path, and a short circuit is avoided.

Preferably, the ionization generator further comprises a fixing mesh enclosure 120, a fixing groove matched with the fixing mesh enclosure 120 is formed in the upper end face of the generator support 115, and the ionization generator 103 is fixed in the fixing mesh enclosure 120. Through setting up fixed screen panel 120, effectively fix ionization generator 103, prevent that ionization generator 103 from rocking at will.

Preferably, the main machine housing comprises an upper housing 101 and a lower housing 102 which are connected in a snap-fit manner, a water inlet mesh enclosure 109 is arranged at the top of the upper housing 101, a plurality of first water inlet holes 108 are arranged on the water inlet mesh enclosure 109, and a plurality of second water inlet holes 118 are arranged on the side wall of the lower housing 102; a surrounding plate 111 is installed in the lower shell 102, the generator support 115 is located above the surrounding plate 111, the surrounding plate 111 and the generator support 115 surround to form the sealing chamber 107, and a silica gel sealing ring 112 is arranged between the connecting part of the surrounding plate 111 and the generator support 115.

In the embodiment, the upper shell 101 and the lower shell 102 are connected in a snap-fit manner, so that the disassembly and the maintenance are convenient; through setting up first inlet opening 108 and second inlet opening 118, on the one hand, in purification process, water can get into simultaneously from top and lateral part, makes positive ionization electrode piece 1031, negative ionization electrode piece 1033 big with the area of action of contact of water, and purification efficiency is high, and on the other hand is convenient for purify and is accomplished back drainage and impurity, avoids hiding dirty and holding dirt, influences the purifying effect. First inlet opening 108 and the preferred bar hole of second inlet opening 118 of this embodiment, the setting in bar hole, on the one hand make things convenient for water to get into inside the host computer casing from the top, on the other hand can avoid big impurity to get into inside the host computer casing, lead to positive ionization electrode piece 1031, short circuit between the negative ionization electrode piece 1033, influence the electrolysis effect, on the other hand make things convenient for the hydroxyl etc. that the electrolysis in-process produced to disperse out very conveniently through the bar hole, dissolve in aqueous better, it is more even to dissolve, purifying effect is better. The connection between the enclosing plate 111 and the generator bracket 115 can be ensured to have better sealing performance through the sealing effect of the silicone sealing ring 112. In addition, the water inlet mesh enclosure 109 of the present embodiment is welded with a diaphragm 110.

Preferably, be equipped with the switch module on the screen panel 109 of intaking, the switch module includes switch button 114 and button silica gel 119, generator support 115 be equipped with the electrically conductive passageway of third of sealed cavity 107 intercommunication, button silica gel 119 is located in the electrically conductive passageway of third and with the electrically conductive passageway of third seals up the cooperation, button silica gel 119 upper end with switch button 114 is connected, button silica gel 119 lower extreme with circuit board 105 is connected. The switch button 114 is arranged, so that the purification function can be conveniently and manually started; of course, the embodiment can also switch on or off the host 10 through a remote controller, so as to better meet various requirements of users, and has strong practicability.

Preferably, a weight 113 is mounted in the sealed chamber 107. When the host 10 is put into the cleaning container, the host 10 can not be suspended due to the counterweight block 113, so that more water flows into the host shell, and the purification effect is improved.

Preferably, the charging plate 203 is electrically connected with a USB interface. Through setting up the USB interface, conveniently charge to wireless charging seat 20 through charging wire 204.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims

1. The fruit and vegetable cleaning purifier is characterized by comprising a host (10) and a wireless charging seat (20), wherein the host (10) comprises a host shell, an ionization generator (103), a rechargeable battery (104), a circuit board (105) and a wireless charging receiving coil (106), a generator support (115) and a sealed chamber (107) are arranged in the host shell, the rechargeable battery (104), the circuit board (105) and the wireless charging receiving coil (106) are fixed in the sealed chamber (107), the ionization generator (103) is fixed on the generator support (115), the host shell is provided with a first water inlet hole (108), the ionization generator (103) and the rechargeable battery (104) are electrically connected with the circuit board (105), and the rechargeable battery (104) is electrically connected with the wireless charging receiving coil (106), a waterproof sealing structure is arranged at the joint of the ionization generator (103) and the circuit board (105); the wireless charging stand (20) comprises a wireless charging shell (201), a wireless charging output coil (202) and a charging plate (203), wherein the wireless charging output coil (202) and the charging plate (203) are arranged in the wireless charging shell (201), and the wireless charging output coil (202) is electrically connected with the charging plate (203).

2. The fruit and vegetable cleaning purifier as defined in claim 1, wherein the ionization generator (103) comprises a positive ionization electrode plate (1031), a negative ionization electrode plate (1033) and an insulating spacer (1032), the insulating spacer (1032) separates the positive ionization electrode plate (1031) and the negative ionization electrode plate (1033) to form an upper, middle and lower sandwich structure and is arranged on the generator bracket (115), the generator support (115) is provided with a first and a second electrically conductive path communicating with the sealed chamber (107), the positive ionization electrode plate (1031) is connected with a first conductive piece (1034), the negative ionization electrode plate (1033) is connected with a second conductive piece (1035), the first electrically-conductive member (1034) is electrically connected to the circuit board (105) through the first electrically-conductive path, the second electrically-conductive member (1035) is electrically connected to the circuit board (105) through the second electrically-conductive path.

3. The fruit and vegetable cleaning purifier as claimed in claim 2, wherein the first conductive member (1034) is fixed in a first conductive channel, the upper end of the first conductive member (1034) is detachably connected with the positive ionization electrode plate (1031) through a first conductive connecting member (1036), the lower end of the first conductive member (1034) is detachably connected with the circuit board (105) through a second conductive connecting member (1037), the second conductive member (1035) is fixed in a second conductive channel, the upper end of the second conductive member (1035) is detachably connected with the negative ionization electrode plate (1033) through a third conductive connecting member (1038), and the lower end of the second conductive member (1035) is detachably connected with the circuit board (105) through a fourth conductive connecting member (1039).

4. The fruit and vegetable cleaning purifier according to claim 3, wherein the first conductive member (1034) and the second conductive member (1035) are both conductive studs, the upper and lower ends of each conductive stud are provided with internal threads, and the first conductive connecting member (1036), the second conductive connecting member (1037), the third conductive connecting member (1038) and the fourth conductive connecting member (1039) are conductive lock nuts; positive ionization electrode piece (1031) are equipped with the first hole of dodging, be equipped with the second on negative ionization electrode piece (1033) and dodge the hole, be equipped with the third on insulating spacer (1032) and dodge the hole, first electrically conductive connecting piece (1036) pass first dodge hole and third dodge behind the hole with first electrically conductive piece (1034) upper end threaded connection, and the nut butt is in on the up end of positive ionization electrode piece (1031), third electrically conductive connecting piece (1038) pass the second dodge behind the hole with second electrically conductive piece (1035) upper end threaded connection, and the nut butt is in on the up end of negative ionization electrode piece (1033).

5. The fruit and vegetable cleaning purifier according to claim 3, wherein a first sealing ring (116) is arranged in the first conductive channel, an inner ring of the first sealing ring (116) is tightly attached to the second conductive connecting piece (1037), and an outer ring of the first sealing ring (116) is tightly attached to the inner wall of the first conductive channel; be equipped with second sealing washer (117) in the electrically conductive passageway of second, the inner circle of second sealing washer (117) with fourth electrically conductive connecting piece (1039) closely laminates, the outer lane of second sealing washer (117) with the inner wall of the electrically conductive passageway of second closely laminates, first sealing washer (116) and second sealing washer (117) form waterproof seal structure.

6. The fruit and vegetable cleaning purifier as claimed in claim 1, further comprising a fixing mesh (120), wherein the generator bracket (115) is provided with a fixing groove on the upper end surface thereof, the fixing mesh (120) is engaged with the fixing mesh, and the ionization generator (103) is fixed in the fixing mesh (120).

7. The fruit and vegetable cleaning purifier as claimed in claim 1, wherein the main housing comprises an upper housing (101) and a lower housing (102) connected by a snap-fit manner, a water inlet mesh enclosure (109) is provided on the top of the upper housing (101), a plurality of first water inlet holes (108) are provided on the water inlet mesh enclosure (109), and a plurality of second water inlet holes (118) are provided on the side wall of the lower housing (102); install bounding wall (111) in lower casing (102), generator support (115) are located the top of bounding wall (111), bounding wall (111) with generator support (115) enclose mutually and close formation sealed cavity (107), bounding wall (111) with be equipped with silica gel sealing ring (112) between the junction of generator support (115).

8. The fruit and vegetable cleaning purifier according to claim 7, wherein a switch assembly is arranged on the water inlet mesh enclosure (109), the switch assembly comprises a switch button (114) and a button silica gel (119), the generator support (115) is provided with a third conductive channel communicated with the sealed chamber (107), the button silica gel (119) is arranged in the third conductive channel and is in sealing fit with the third conductive channel, the upper end of the button silica gel (119) is connected with the switch button (114), and the lower end of the button silica gel (119) is connected with the circuit board (105).

9. The fruit and vegetable cleaning purifier according to claim 1, wherein a weight block (113) is installed in the sealed chamber (107).

10. The fruit and vegetable cleaning purifier as recited in claim 1, characterized in that the charging plate (203) is electrically connected with a USB interface.