CN213309296U

CN213309296U - Purifying device

Info

Publication number: CN213309296U
Application number: CN202021245153.XU
Authority: CN
Inventors: 朱泽春; 周升铭; 陈宁涛
Original assignee: Joyoung Co Ltd
Current assignee: Shandong Jiuchuang Home Appliance Co ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2021-06-01
Anticipated expiration: 2030-06-30

Abstract

The utility model provides a purification device, including the shell with install in electrolysis subassembly in the shell, electrolysis subassembly include the electrolysis box with install in electrolysis piece subassembly in the electrolysis box, electrolysis piece subassembly includes a plurality of positive pole electrolysis pieces and a plurality of negative pole electrolysis piece, the electrolysis box includes electrolysis casing and electrolysis lid, the electrolysis casing with electrolysis lid releasable connection is a plurality of positive pole electrolysis piece and a plurality of the vertical alternative install of negative pole electrolysis piece in on the electrolysis casing. The utility model discloses a purifier has convenient clean, the efficient effect of purification.

Description

Purifying device

Technical Field

The utility model relates to a domestic appliance field especially relates to a purifier.

Background

With the enhancement of health consciousness, the requirement of people on food safety is higher and higher. In order to clean toxic substances such as pesticide and the like remained on the fruits and vegetables, purification equipment capable of removing pesticide residues is adopted to clean the fruits and vegetables. In recent years, more and more fruit and vegetable cleaning and purifying products adopt electrolytic water to clean and purify, the electrolytic modules of the electrolytic purifiers are usually integrally and hermetically fixed in a purifier shell, the electrolytic modules cannot be detached independently, the inside of the electrolytic sheet assembly is not easy to clean after being used for a period of time, the electrolytic sheet assembly is usually horizontally placed, the number of the electrolytic sheets is limited, the electrolytic purification efficiency is required to be improved, impurities are easily remained between the horizontally arranged electrolytic sheets, and the electrolytic purification effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a convenient clean, purification efficiency is high purifier.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a purification device, comprising a housing and an electrolytic assembly mounted in the housing, wherein the electrolytic assembly comprises an electrolytic box and an electrolytic plate assembly mounted in the electrolytic box, the electrolytic plate assembly comprises a plurality of anode electrolytic plates and a plurality of cathode electrolytic plates, the electrolytic box comprises an electrolytic shell and an electrolytic box cover, the electrolytic shell and the electrolytic box cover are detachably connected, and the anode electrolytic plates and the cathode electrolytic plates are vertically and alternately mounted on the electrolytic shell.

Preferably, the electrolytic box cover and the electrolytic shell are fixed through a buckle, one of the electrolytic box cover and the electrolytic shell is provided with a plurality of buckles, the other of the electrolytic box cover and the electrolytic shell is provided with a plurality of buckle grooves, and the buckles are clamped and fixed in the buckle grooves.

Preferably, the outer edge of the electrolytic box cover is provided with a positioning groove with a downward opening, and the outer edge of the electrolytic shell is provided with a positioning rib matched with the positioning groove in a positioning manner.

Preferably, a plurality of overflow holes are formed in the side wall of the electrolytic shell, the plurality of overflow holes are arranged around the electrolytic sheet assembly, and the lower end surfaces of the overflow holes are flush with the bottom wall of the electrolytic shell.

Preferably, the electrolytic housing is a concave-up housing, a first mounting cavity for mounting the electrolytic sheet assembly is formed at the upper part of the electrolytic housing, and a second mounting cavity for mounting a balancing weight or a power supply module is formed at the bottom of the electrolytic housing.

Preferably, the second installation cavity is formed by vertically extending a first annular rib downwards from the bottom of the electrolytic shell, a second annular rib surrounding the first annular rib is further arranged at the bottom of the electrolytic shell, the second annular rib is located outside the first annular rib, and the second annular rib and the first annular rib enclose a third installation cavity for installing the indicator lamp.

Preferably, the electrolytic component further comprises an electrolytic sheet fixing plate, the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are arranged on the electrolytic shell through the electrolytic sheet fixing plate, the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are fixedly arranged on the electrolytic sheet fixing plate at the same end, the electrolytic sheet fixing plate divides the electrolytic shell into a waterproof sealing cavity and an electrolytic purification cavity, and the connecting end of the electrolytic sheet assembly and the power line is located in the waterproof sealing cavity.

Preferably, a plurality of clamping grooves are formed in the electrolytic sheet fixing plate at intervals, the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are alternately arranged in the clamping grooves, and a mounting groove for mounting the electrolytic sheet fixing plate is further formed in the side wall of the electrolytic shell.

Preferably, a first clamping groove group is arranged on the bottom wall of the electrolytic shell, a second clamping groove group is arranged on the bottom wall of the electrolytic box cover, and the first clamping groove group and the second clamping groove group limit the lower ends and the upper ends of the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets which are vertically arranged respectively.

Preferably, the middle area of the electrolytic box cover is provided with a through hole, the through hole is communicated with the electrolytic purification cavity, the edge area of the electrolytic box cover is provided with a shielding part, and the shielding part is positioned above the waterproof sealing cavity.

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

1. the electrolytic box is arranged outside the electrolytic sheet assembly and is arranged in the shell, so that the electrolytic sheet assembly and the electrolytic box can preferentially form an assembly, and then the assembly is assembled with the shell of the purification device, and the assembly efficiency is improved; the electrolytic shell of the electrolytic box and the electrolytic box cover are detachably connected, so that the cleaning and cleaning operation of impurities in the electrolytic box can be conveniently carried out after purification; with the vertical alternate installation of positive pole electrolysis piece and negative pole electrolysis piece, on the one hand, be difficult for remaining impurity and dirt between the adjacent electrolysis piece of vertical setting, on the other hand, the electrolyte piece subassembly of vertical setting can increase electrolysis piece quantity, promotes purification effect area, and the electrolysis is efficient.

2. The electrolytic box cover and the electrolytic shell are matched and fixed with the buckle groove through the buckle, the fixing structure is simple and reliable, and the disassembly and the assembly are convenient; and through setting up location complex constant head tank and location muscle for electrolysis lid and electrolysis casing fix a position fixedly fast, promote electrolysis box assembly efficiency.

3. The overflow holes are formed in the side wall of the electrolytic shell and arranged around the electrolytic sheet assembly, so that water flow purified by the electrolytic sheet assembly can be discharged in time, and the purification efficiency is improved; through setting up the lower terminal surface of spillway hole and the diapire parallel and level of electrolysis casing, can fully discharge the water in the electrolysis casing, avoid appearing the residual water.

4. The space of the electrolytic shell can be fully utilized by arranging the first mounting cavity for mounting the electrolytic sheet assembly on the upper part of the electrolytic shell and arranging the second mounting cavity for mounting the balancing weight or the power module on the bottom of the electrolytic shell; and balancing weight or power module can be used for in time sinking the electrolysis casing, guarantee to provide stable purification efficiency.

5. The second mounting cavity is formed by the first annular rib vertically extending from the bottom of the electrolytic shell, so that the structure is simple and the forming is convenient; set up the second annular muscle around the first annular muscle outside, enclose the third installation cavity of installation pilot lamp by two annular muscle, the third installation cavity encircles the setting with the second installation cavity, saves space and occupies to first annular muscle can also be used for separating two cavitys, so that sealed electrical part.

6. By arranging the electrolytic sheet fixing plate, the same ends of the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are conveniently and fixedly arranged on the electrolytic sheet fixing plate, and the same ends are fixedly arranged, so that the structure is simple, and the power line is conveniently connected; and through setting up the electrolysis casing into waterproof sealing chamber and electrolysis purification chamber to locate the waterproof sealing intracavity with the link of electrolysis piece subassembly and power cord, sealed water-proof effects is good.

7. Clamping grooves for mounting the electrolytic sheet assemblies are formed in the electrolytic sheet fixing plate, so that the anode electrolytic sheets or the cathode electrolytic sheets are alternately mounted in a separated mode, and the distance between every two electrolytic sheets is guaranteed; and the side wall of the electrolytic shell is provided with the mounting groove, so that the electrolytic sheet fixing plate is conveniently and fixedly connected with the electrolytic shell.

8. The first clamping groove group and the second clamping groove group are arranged on the electrolytic case cover, and the two groups of clamping grooves are respectively positioned at the upper side and the lower side of the electrolytic sheet assembly, so that the upper end and the lower end of the electrolytic sheet assembly are conveniently limited, and the distance between every two electrolytic sheets is ensured.

9. The through hole is formed in the middle of the electrolytic box cover, so that external water is conveniently communicated with the electrolytic purification cavity through the through hole, and the water is rapidly electrolyzed and purified; and set up the shielding part above the waterproof sealing chamber of electrolysis box, can shelter from sealed waterproof sealing intracavity structure, promote user experience.

Drawings

FIG. 1 is a schematic perspective view of the electrolytic purification device of the present invention;

FIG. 2 is a cross-sectional view of the electrolytic purification apparatus of the present invention;

FIG. 3 is an exploded view of the electrolytic cleaning device of the present invention;

FIG. 4 is an exploded view of the electrolytic cleaning device of the present invention from another perspective;

FIG. 5 is a schematic structural view of the bottom casing of the electrolytic purification device of the present invention;

FIG. 6 is a schematic structural view of the upper cover of the electrolytic purification device of the present invention;

FIG. 7 is a schematic structural view of an electrolytic cartridge of the electrolytic purification device of the present invention;

FIG. 8 is a schematic structural view of another view angle of the electrolytic cartridge of the electrolytic purification device of the present invention;

FIG. 9 is a schematic view of a partial structure of an electrolytic cartridge of the electrolytic purification device of the present invention;

FIG. 10 is a schematic view of the electrolytic tank cover of the electrolytic purification device of the present invention.

The names of the components marked in the figures are as follows:

1. an electrolytic cell; 11. an electrolytic housing; 111. a first annular rib; 112. a wire pressing plate; 1121. a wire pressing part; 1122. pressing the convex ribs; 113. mounting grooves; 114. a first card slot group; 115. a second annular rib; 116. a fastening groove; 117. a waterproof sealed cavity; 118. an electrolytic purification chamber; 12. an electrolytic box cover; 121. a second card slot group; 122. a shielding portion; 123. buckling; 124. positioning a groove; 13. mounting holes; 14. a second threading hole; 15. a first mounting cavity; 16. a second mounting cavity; 17. a second through hole; 18. an overflow hole; 19. a third mounting cavity; 2. an electrolyte sheet assembly; 3. a housing; 31. an upper cover; 311. rotating the groove; 312. a rib is protruded; 313. a first through hole; 314. stopping the convex rib; 32. a bottom case; 321. screwing; 322. a screw post; 323. a first threading hole; 324. a wire clamping groove; 325. a first overflow aperture; 326. an arc transition surface; 4. a vertical annular gap; 5. a power line; 6. an electrolytic sheet fixing plate; 61. a card slot; 7. an indicator light; 8. and a balancing weight.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The first embodiment is as follows:

as shown in fig. 1-8, the utility model provides a purification device, including shell 3 and the electrolytic component who installs in the shell, the electrolytic component includes electrolytic box 1 and installs electrolytic component subassembly 2 in electrolytic box 1, the electrolytic component subassembly includes a plurality of positive pole electrolytic sheets and a plurality of negative pole electrolytic sheets, shell 3 includes upper cover 31 and drain pan 32, upper cover 31 closes with drain pan 32 soon and is connected, one of them is equipped with spiral groove 311 for upper cover 31 and drain pan 32, the other one of them is equipped with spiral buckle 321 with spiral groove 311 cooperation installation, electrolytic box 1 installs in drain pan 32. The upper cover 31 is connected with the bottom shell 32 in a screwing mode, so that the assembly operation of the upper cover 31 and the bottom shell 32 is simple, and the assembly efficiency is improved; and the screwing connection can also be conveniently disassembled, so that a user can clean residual impurities on the electrolytic sheet assembly 2 in time, and the electrolytic purification efficiency is prevented from being influenced.

As shown in fig. 3, 4 and 7, the outer edge of the bottom wall of the upper cover 31 is provided with a vertical rib 312 extending downward, the outer wall surface of the rib 312 is provided with a plurality of spiral grooves 311, the bottom shell 32 is a concave shell, the inner side wall of the bottom shell 32 is provided with a plurality of spiral fasteners 321, and the spiral grooves 311 are provided with position-stopping ribs 314 matching with the positions of the spiral fasteners 321 to prevent the spiral fasteners 321 from sliding out of the spiral grooves 311, thereby ensuring the stability of the spiral connection. The ribs 312 are of a segmented discontinuous structure, so that a gap is left between the ribs 312, and the gap is utilized for light transmission after the upper cover 31 is screwed with respect to the bottom case 32.

As shown in fig. 1 and 2, the upper wall surface of the spiral groove 311 and the bottom wall of the upper cover 31 have a vertical height difference, so that when the spiral button 321 is screwed in place relative to the spiral groove 311, a vertical annular gap 4 is formed between the upper cover 31 and the bottom shell 32. Set up vertical annular clearance 4 between drain pan 32 and upper cover 31, further promoted the holistic light transmissivity of electrolysis purifier, also the outflow of the rivers of being convenient for more flows in, helps promoting the drainage after purifying effect and the use.

As shown in fig. 3 and 5, a plurality of mounting holes 13 are formed in the outer side of the electrolytic cartridge 1, a corresponding number of connecting screw posts 322 are formed in the bottom case 32, screws pass through the mounting holes 13 and are connected with the connecting screw posts 322 so as to fixedly connect the electrolytic cartridge 1 and the bottom case 32 together, and the electrolytic cartridge 1 and the bottom case 32 are fixedly connected through the screws, so that the connection stability is ensured.

As shown in fig. 3-6, the electrolytic purification device further comprises a power line 5, a first threading hole 323 is arranged on the bottom case 32, a second threading hole 14 is arranged on the electrolytic box 1, the power line 5 extends into the electrolytic box 1 after passing through the first threading hole and the second threading hole 14, and is connected with the electrolytic sheet assembly 2, the other end of the power line 5 is connected with a power supply, the electrolytic sheet assembly 2 is powered through the power line 5, a line pressing structure is arranged between the first threading hole and the second threading hole 14, and the joint of the power line 5 and the electrolytic sheet assembly 2 can be prevented from loosening under the action of external force by arranging the line pressing structure.

As shown in fig. 3-6, the wire pressing structure includes a wire clamping groove 324 in the bottom case 32 and a wire pressing plate 112, the wire pressing plate 112 cooperates with the wire clamping groove 324 to press and fix the power wire 5, and the wire pressing plate 112 is fixedly connected with the bottom case 32 through a screw. Line ball board 112 is formed by electrolysis box 1 outwards extending, and line ball board 112 has line ball portion 1121 that the cross-section is semicircular, and line ball portion 1121 inner wall is equipped with compresses tightly protruding muscle 1122, and when line ball board 112 and drain pan 32 fixed connection, compress tightly protruding muscle 1122 and support with power cord 5 outline and lean on spacingly, further promote the spacing effect of compressing tightly of power cord 5.

As shown in fig. 2-6, the electrolytic box 1 has a first mounting cavity 15 for mounting the electrolytic cell assembly 2 therein, the bottom of the electrolytic box 1 has a second mounting cavity 16 for mounting a counter weight and/or an indicator light, the electrolytic cell assembly 2 comprises a plurality of anode electrolytic sheets and a plurality of cathode electrolytic sheets, and the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are vertically and alternately mounted in the first mounting cavity 15. Different mounting cavities are respectively arranged at the upper part and the lower part of the electrolytic box, so that the space of the electrolytic box can be fully utilized; and balancing weight or power module can be used for in time sinking the electrolysis casing, guarantee to provide stable purification efficiency.

In this embodiment, as shown in fig. 3 and 4, the electrolytic assembly further includes an electrolytic sheet fixing plate 6, the electrolytic sheet fixing plate 6 is installed in the electrolytic box 1, the same end of the anode electrolytic sheet and the same end of the cathode electrolytic sheet are both installed on the electrolytic shell through the electrolytic sheet fixing plate 6, and the same end is installed and fixed, so that the structure is simple and the connection with a power line is convenient; the electrolytic shell is divided into a waterproof sealing cavity and an electrolytic purification cavity by the electrolytic sheet fixing plate 6, and the connecting end of the electrolytic sheet assembly and the power line 5 is positioned in the waterproof sealing cavity, so that the sealing and waterproof effects are good.

As shown in fig. 8, the edge region of the electrolytic cell cover is provided with a shielding portion 122, and the shielding portion 122 is located above the waterproof sealing cavity, so that the inner structure of the waterproof sealing cavity can be shielded, and the user experience can be improved.

In this embodiment, the electrolyte sheet assembly 2 includes a plurality of anode electrolyte sheets and a plurality of cathode electrolyte sheets, and the anode electrolyte sheets and the cathode electrolyte sheets cooperate to excite the water body to realize the electrolysis function, wherein the anode electrolyte sheets are connected to the positive connection end of the power line 5, and the cathode electrolyte sheets are connected to the negative connection end of the power line 5. Because the electrolysis clarifier can produce the bubble at work, the bubble can the come-up in aqueous, and this embodiment is equipped with vertically arranged's electrolytic cell subassembly 2, can alleviate the bubble mixture greatly and adhere to, improves electrolysis efficiency to vertically arranged's electrolytic cell subassembly 2 is also convenient for clear away the impurity that blocks up in the electrolytic cell, and user experience is better.

As shown in fig. 2 and 3, a first mounting cavity 15 for fixing the electrolytic sheet assembly 2 is provided in the electrolytic case of the electrolytic box 1, a mounting groove 113 for mounting the electrolytic sheet fixing plate 6 is provided on the side wall of the electrolytic case, and both ends of the electrolytic sheet fixing plate 6 are inserted into the mounting grooves 113 to fix the electrolytic sheet fixing plate 6. The fixed chamber of electrolytic sheet in electrolytic box 1 is divided into two sub-chambers by electrolytic sheet fixed plate 6, and the sub-chamber that is located electrolytic sheet fixed plate 6 one side forms and holds the chamber, and electrolytic sheet subassembly 2 is located this holding intracavity with the connection structure of power cord 5. Through set up waterproof sealing washer or fill waterproof sealed glue holding the chamber, can make and hold the chamber and set up to waterproof sealing chamber, can realize sealing up waterproof to the junction of electrolyte piece subassembly 2 and power cord 5, sealed easy operation has improved the assembly efficiency of electrolysis module.

As shown in fig. 3 and 4, the electrolytic housing is a concave housing, a first mounting cavity 15 for mounting the electrolytic cell assembly is formed at the upper part of the electrolytic housing, a first clamping groove group 114 is arranged on the bottom wall of the electrolytic housing 11, a second clamping groove group 121 is arranged on the bottom wall of the electrolytic box cover 12, and the first clamping groove group and the second clamping groove group respectively limit the lower ends and the upper ends of the plurality of anode electrolytic cells and the plurality of cathode electrolytic cells which are vertically mounted. The whole electrolyte piece fixing plate 6 is of a sheet shape, clamping grooves 61 for clamping the electrolyte piece assembly 2 are formed in the electrolyte piece fixing plate at intervals, and the plurality of anode electrolyte pieces and the plurality of cathode electrolyte pieces are alternately arranged in the clamping grooves, so that the anode electrolyte pieces or the cathode electrolyte pieces are alternately arranged in a separated mode, and the distance between every two electrolyte pieces is guaranteed.

When the electrolytic cell assembly 2 is installed, the electrolytic cell assembly 2 is inserted into the locking groove 61 of the electrolytic cell fixing plate 6, the electrolytic cell fixing plate 6 with the electrolytic cell assembly 2 inserted therein is inserted into the installation groove 113 of the electrolytic cell 1 as a whole, and the lower part of the electrolytic cell assembly 2 is inserted into the first locking groove group 114 of the electrolytic cell 1 so that the electrolytic cells are fixed at intervals.

As shown in figures 3 and 4, the electrolytic box 1 comprises an electrolytic shell 11 and an electrolytic box cover 12, wherein the electrolytic box cover 12 is covered and fixed on the electrolytic shell 11, and the electrolytic shell and the electrolytic box cover are detachably connected. Wherein, electrolysis lid 12 passes through the buckle with electrolysis casing 11 and fixes, and a plurality of positive pole electrolytic sheet and a plurality of negative pole electrolytic sheet are vertical to be installed on electrolysis casing in turn, and the vertical setting of electrolytic sheet is difficult for gathering dust, impurity between the adjacent electrolytic sheet, and vertical setting moreover, the electrolytic sheet quantity becomes many, and electrolysis purification action area is greatly increased also.

Specifically, be equipped with a plurality of buckles on electrolysis lid and electrolysis casing both one of them, be equipped with a plurality of buckle grooves on the other one of them, the buckle joint is fixed in the buckle groove, in this embodiment, the electrolysis lid sets up buckle 123, and the electrolysis casing sets up buckle groove 116, and the electrolysis lid passes through the buckle with the electrolysis casing to be fixed, simple structure, convenient dismantlement washing.

As shown in fig. 9 and 10, the outer edge of the electrolytic box cover is provided with a positioning groove 124 with a downward opening, the outer edge of the electrolytic shell is provided with a positioning rib matched with the positioning groove 124 in a positioning manner, and the positioning groove and the positioning rib matched in a positioning manner are arranged, so that the electrolytic box cover and the electrolytic shell are quickly positioned and fixed, and the assembly efficiency of the electrolytic box is improved.

As shown in fig. 4 and fig. 6, a first annular rib 111 protruding downwards is provided on the outer bottom surface of the electrolytic housing 11, the bottom of the electrolytic housing has a second mounting cavity 16 for mounting a counterweight or a power module, and the second mounting cavity is formed by the first annular rib extending downwards and vertically from the bottom of the electrolytic housing.

As shown in fig. 4 and 6, the bottom of the electrolytic housing is further provided with a second annular rib 115 surrounding the first annular rib 111, the second annular rib 115 is located outside the first annular rib 111, and the second annular rib 115 and the first annular rib 111 enclose a third installation cavity 19 for installing an indicator lamp.

As shown in fig. 4 and 6, an indicator lamp 7 is installed in the third installation cavity 19, so that a user can know the working state of the electrolytic purification device by observing the indicator lamp 7; the light of the indicator light 7 can upwards penetrate through the electrolytic box 1 to be emitted and penetrate through the bottom case 32 to the periphery, so that the light of the indicator light 7 can be clearly seen by a user from any angle; and a sealed cavity for installing the indicator light 7 is formed in the shell assembly, so that the safe operation of the indicator light 7 and the electrolytic purification device is ensured.

In this embodiment, balancing weight 8 can be the great material of density, and mainly used increases the whole weight of electrolytic purifier, avoids electrolytic purifier because density undersize can't sink in disinfection container, and then guarantees purifying effect. The balancing weight adopts cast iron in this embodiment, in other embodiments, also can use the balancing weight of other materials, as long as guarantee that the electrolysis clarifier can sink in disinfection container can, this application does not do the restriction to its material.

As shown in fig. 3-8, the upper cover 31 has a first through hole 313, the first through hole 313 is disposed in the middle of the upper cover 31, the bottom case 32 is provided with a plurality of first overflow holes 325, the middle area of the cover of the electrolytic tank has a second through hole 17 disposed opposite to the first through hole 313, the second through hole is communicated with the electrolytic purification chamber, and the second through hole 17 is located right above the electrolytic tank assembly 2, so as to rapidly introduce external water into the electrolytic tank 1 through the second through hole 17.

As shown in fig. 6, a plurality of overflow holes are formed in the side wall of the electrolytic case, the plurality of overflow holes are arranged around the electrolytic sheet assembly, and the lower end surfaces of the overflow holes are flush with the bottom wall of the electrolytic case. Through setting up first overflow hole 325 and spillway hole 18 for the electrolysis is ended, and the electrolysis module takes out the surface of water, and liquid can flow out through first overflow hole 325 and spillway hole 18, avoids appearing the residual water.

As shown in fig. 5, the first overflow hole 325 is disposed around the electrolytic cartridge 1, the bottom wall of the bottom case 32 is a plane, the bottom wall and the side wall of the bottom case 32 are respectively provided with an arc-shaped transition surface 326, the first overflow hole 325 is disposed on the arc-shaped transition surface 326, the arc-shaped transition surface 326 is disposed at the joint, the residual water between the bottom wall and the side wall of the bottom case 32 can be prevented, the bottom case 32 is circular, the first overflow hole 325 is a long strip-shaped hole, and the length direction of the first overflow hole 325 is along the radial direction of the bottom case 32, so that the long strip-shaped overflow hole is disposed, the outlet area is increased, and the drainage efficiency is improved.

In the electrolytic purifier provided by the embodiment, the upper cover 31 is screwed and connected with the bottom shell 32, so that the electrolytic purifier is convenient for a user to disassemble and clean and has high assembly efficiency; and because electrolysis lid 12 and electrolysis box 1 adopt the buckle to be connected, electrolysis piece subassembly 2 is connected on electrolysis box 1 with the form of draw-in groove, and the user can dismantle the electrolysis piece group from the casing alone and wash or change, the later maintenance of being convenient for. The vertical arrangement of the electrolytic sheets is adopted, so that the overall structure is reasonable in layout, the space utilization rate is high, and impurities are not easy to remain between the electrolytic sheets.

In this embodiment, the anode electrolyte sheet and the cathode electrolyte sheet of the electrolyte sheet assembly 2 are both vertically arranged, so that not only can light emitted by the indicator light be transmitted out from a gap between the anode electrolyte sheet and the cathode electrolyte sheet, but also bubbles generated in the electrolysis process can be ensured not to be attached to the electrolyte sheet, and the bubbles and impurities are prevented from forming resistance between the anode electrolyte sheet and the cathode electrolyte sheet, which leads to reduction of current on the anode electrolyte sheet and the cathode electrolyte sheet, and leads to poor electrolysis effect or loss of electrolysis effect; and the vertically arranged electrolytic sheet is convenient to wash, convenient to clean impurities such as food residues and broken leaves blocked or attached to the surface of the electrolytic sheet, and convenient to maintain.

Example two:

the difference between this embodiment and the first embodiment is: the electrolytic purification device is of a wall-mounted structure.

The electrolysis purification device also comprises a host and an electrolysis module externally connected with the host, wherein the electrolysis module is electrically connected with the host through a power cord 5, the electrolysis module comprises a shell 3, an electrolysis box 1 and an electrolysis sheet assembly 2 are arranged in the shell 3, and a control device is arranged in the host and controls whether the electrolysis module works or not. Other undescribed features and technical effects in this embodiment are the same as those in the first embodiment, and are not described herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.

Claims

1. A purification device, comprising a shell and an electrolytic component arranged in the shell, wherein the electrolytic component comprises an electrolytic box and an electrolytic sheet component arranged in the electrolytic box, the electrolytic sheet component comprises a plurality of anode electrolytic sheets and a plurality of cathode electrolytic sheets, the electrolytic box comprises an electrolytic shell and an electrolytic box cover, the electrolytic shell and the electrolytic box cover are detachably connected, and the plurality of anode electrolytic sheets and the plurality of cathode electrolytic sheets are vertically and alternately arranged on the electrolytic shell.

2. The purifying device as claimed in claim 1, wherein the electrolytic box cover is fixed to the electrolytic case by a snap fit, one of the electrolytic box cover and the electrolytic case is provided with a plurality of snap fits, and the other of the electrolytic box cover and the electrolytic case is provided with a plurality of snap fit grooves, and the snap fits are fixed in the snap fit grooves.

3. The purifying apparatus as claimed in claim 2, wherein the outer edge of the cover of the electrolytic tank is provided with a positioning groove with a downward opening, and the outer edge of the electrolytic case is provided with a positioning rib for positioning and matching with the positioning groove.

4. The purifying apparatus as claimed in claim 2, wherein a plurality of overflow holes are provided in a side wall of the electrolytic case, the plurality of overflow holes are provided around the electrolytic sheet assembly, and a lower end surface of the overflow hole is flush with a bottom wall of the electrolytic case.

5. The purification apparatus as claimed in claim 1, wherein the electrolytic housing is a concave-top housing, the upper portion of the electrolytic housing forms a first mounting cavity for mounting the electrolytic sheet assembly, and the bottom portion of the electrolytic housing has a second mounting cavity for mounting a counterweight or a power module.

6. The purification device as claimed in claim 5, wherein the second installation cavity is formed by a first annular rib extending vertically downward from the bottom of the electrolytic shell, the bottom of the electrolytic shell is further provided with a second annular rib surrounding the first annular rib, the second annular rib is located outside the first annular rib, and the second annular rib and the first annular rib enclose a third installation cavity for installing an indicator light.

7. The purifying apparatus as claimed in any one of claims 1 to 6, wherein the electrolytic assembly further comprises an electrolytic sheet fixing plate, a plurality of the anode electrolytic sheets and a plurality of the cathode electrolytic sheets are mounted on the electrolytic housing through the electrolytic sheet fixing plate, the same ends of the plurality of the anode electrolytic sheets and the plurality of the cathode electrolytic sheets are fixedly mounted on the electrolytic sheet fixing plate, the electrolytic sheet fixing plate divides the electrolytic housing into a waterproof sealing chamber and an electrolytic purifying chamber, and the connection end of the electrolytic sheet assembly to the power line is located in the waterproof sealing chamber.

8. The purifying device as claimed in claim 7, wherein a plurality of slots are spaced on the fixing plate, a plurality of anode plates and a plurality of cathode plates are alternately installed in the slots, and an installation slot for installing the fixing plate is further installed on the side wall of the electrolytic housing.

9. The purification apparatus as claimed in claim 8, wherein a first slot set is disposed on the bottom wall of the electrolytic case, a second slot set is disposed on the bottom wall of the electrolytic case cover, and the first slot set and the second slot set limit the lower end and the upper end of the plurality of anode electrolyte sheets and the plurality of cathode electrolyte sheets, respectively, which are vertically installed.

10. The purification device as claimed in claim 7, wherein the electrolytic box cover is provided with a through hole at its middle region, the through hole is communicated with the electrolytic purification chamber, and the edge region of the electrolytic box cover is provided with a shielding part above the waterproof sealing chamber.