CN213963273U - Electrolytic component and electrolytic device of dish washing machine and dish washing machine - Google Patents

Abstract

The utility model provides an electrolysis subassembly, electrolytic device and dish washer of dish washer, the electrolysis subassembly of dish washer includes: a mounting structure; the electrolytic structure comprises at least two electrodes, and at least one first electrode and at least one second electrode are arranged in the at least two electrodes and are arranged on the mounting structure at intervals; the at least two conductive structures are provided with at least one first conductive structure and at least one second conductive structure, the first conductive structure is electrically connected with the first electrode, and the second conductive structure is electrically connected with the second electrode. Through being connected first conductive structure and first electrode electricity, be connected second conductive structure and second electrode electricity to make first electrode and second electrode interval set up on mounting structure, can realize killing the bacterium in the dish washer through the mode of electrolysis, thereby can make the tableware store in the dish washer for a long time.

Description

Electrolytic component and electrolytic device of dish washing machine and dish washing machine

Technical Field

The utility model relates to the technical field of household appliances, concretely relates to electrolysis subassembly, electrolytic device and dish washer of dish washer.

Background

With the improvement of living standard, the dish washing machine gradually enters into the ordinary family, and the living quality of people is improved.

Generally, the main core components of existing dishwashers generally include: the water pump comprises a liner assembly, a water cup assembly, a spray arm assembly, a filter assembly, a washing pump, a drainage pump, a pipeline and the like. The dish washer in the market generally carries out main cleaning and tableware disinfection through high temperature (usually about 70 ℃), and some dish washers are also provided with modes of UVC ultraviolet lamp disinfection, silver ion bacteriostasis added in part materials, steam high-temperature disinfection, hot air drying and the like.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims at providing an electrolysis subassembly, electrolytic device and dish washer of novel dish washer.

The utility model provides an electrolysis subassembly of dish washer, include:

a mounting structure;

the electrolytic structure comprises at least two electrodes, and at least one first electrode and at least one second electrode are arranged in the at least two electrodes and are arranged on the mounting structure at intervals;

at least two conductive structures sequentially penetrating the first electrode and the second electrode; and at least one first conductive structure and at least one second conductive structure are arranged in at least two conductive structures, wherein the first conductive structure is electrically connected with the first electrode, and the second conductive structure is electrically connected with the second electrode.

One end of each conductive structure, which is far away from the electrode, is a wiring end, and the wiring end of each conductive structure is connected with a lead respectively;

the mounting structure includes an insulating spacer, the first electrode is located on a side of the insulating spacer adjacent to the terminal, and the second electrode is located on a side of the insulating spacer remote from the terminal.

The mounting structure further includes:

the first insulating frame is positioned on one side, back to the insulating partition plate, of the first electrode, and a yielding through hole through which the first conductive structure and the second conductive structure respectively penetrate is formed in the first insulating frame;

and the second insulating frame is positioned on one side of the second electrode, which faces away from the insulating partition plate.

The mounting structure further comprises a first insulation boss, the first insulation boss is arranged on the insulation partition plate and/or the first insulation frame, a first opening suitable for containing the first insulation boss is formed in the first electrode, a first insulation cavity is formed in the first insulation boss, and the second conductive structure penetrates through the first insulation cavity and contacts with the second electrode.

The mounting structure further comprises a second insulating boss, the second insulating boss is arranged on the second insulating frame and/or the insulating partition plate, a second opening suitable for containing the second insulating boss is formed in the second electrode, a second insulating cavity is formed in the second insulating boss, and the first conducting structure penetrates through the first electrode and is contained in the second insulating cavity.

The first insulation boss and the insulation partition plate are integrally formed, and the second insulation boss and the second insulation frame are integrally formed.

The mounting structure further includes:

the third insulating boss is arranged on the second insulating frame and extends out in the direction far away from the electrode, and a first positioning hole suitable for accommodating the second conducting structure is formed in the third insulating boss;

the fourth insulating boss is arranged on the second insulating frame and extends out in the direction far away from the electrode, and a second positioning hole communicated with the second insulating cavity is formed in the fourth insulating platform; one surface of the fourth insulation boss back to the electrode is flush with one surface of the third insulation boss back to the electrode.

The mounting structure further comprises at least one hook, the hook comprising:

the handle part is arranged on the second insulating frame and extends towards the first insulating frame;

and the hook part is arranged at one end of the handle part, which is far away from the second insulating frame, and is propped against one side, back to the second insulating frame, of the first insulating frame.

The electrode is an electrolytic sheet, and the electrolytic sheet comprises a sheet body and a plurality of electrolytic through holes arranged on the sheet body.

The plurality of electrolysis through holes are uniformly distributed on the sheet-shaped body.

The first electrode and the second electrode are parallel to each other.

The conductive structure includes:

the conductive body is electrically connected with the corresponding electrode;

and the wire fixing structure is arranged at one end of the conductive body, which is far away from the electrode, and is used for fixing the lead.

The conductive body is a bolt.

The wire fixing structure comprises a first nut and a second nut which are respectively screwed on the bolt, and the wire is clamped between the first nut and the second nut.

The wire is provided with a mounting hole at one end and sleeved on the conductive body through the mounting hole.

The utility model also provides an electrolytic device of dish washer, include:

a water tank body formed with a water tank chamber;

in the electrolytic component of the dishwasher, the mounting structure and the electrolytic structure of the electrolytic component are arranged in the water tank cavity, and the conductive structure partially extends out of the water tank cavity.

The utility model also provides an electrolytic device of dish washer, include:

the water tank body is provided with a water tank cavity, one side wall of the water tank body, which is far away from the wiring terminal, is a first water tank side wall, and one side wall of the water tank body, which is close to the wiring terminal, is a second water tank side wall;

the installation structure and the electrolysis structure of the electrolysis component are arranged in the water tank cavity, and the conductive structure partially extends out of the water tank cavity;

and the at least two sealing pieces are arranged between the side wall of the second water tank and the mounting structure and are arranged corresponding to the conductive structure.

The sealing element is a sealing ring and comprises a sheet sealing body and a conical sealing part extending from the sealing body to the wiring end; the sealing body with toper sealing portion integrated into one piece, just be equipped with on the sealing washer and run through in proper order toper sealing portion with the sealed hole of sealing body, sealed hole is suitable for the confession conducting structure passes.

The utility model also provides a dish washer, including foretell dish washer's electrolytic device.

The utility model discloses technical scheme has following effect:

1. the utility model provides an electrolysis subassembly of dish washer, include: a mounting structure; the electrolytic structure comprises at least two electrodes, and at least one first electrode and at least one second electrode are arranged in the at least two electrodes and are arranged on the mounting structure at intervals; at least two conductive structures sequentially penetrating the first electrode and the second electrode; and at least one first conductive structure and at least one second conductive structure are arranged in at least two conductive structures, wherein the first conductive structure is electrically connected with the first electrode, and the second conductive structure is electrically connected with the second electrode. When in use, one of the first conductive structure and the second conductive structure is electrically connected with a connection positive pole, the other is electrically connected with a negative pole, so that a first electrode electrically connected with the first conductive structure is an anode, a second electrode electrically connected with the second conductive structure is a cathode, or the first electrode is a cathode, the second electrode is an anode, bacteria in the dish washing machine can be killed in an electrolytic mode by arranging the first electrode and the second electrode on the mounting structure at intervals, thereby the tableware can be kept in the dish washing machine for a long time, meanwhile, as the first conductive structure sequentially penetrates through the first electrode and the second electrode, and the second conductive structure sequentially penetrates through the first electrode and the second electrode, only the first conductive structure is required to be selectively electrically connected with the positive pole or the negative pole, and the second conductive structure is selectively electrically connected with the negative pole or the positive pole, the polarity of the power supply connected with the first conductive structure and the second conductive structure is different, so that the first electrode can be selectively connected with positive electrode electricity or negative electrode electricity, and the second electrode can be selectively connected with negative electrode electricity or positive electrode electricity with the polarity different from that of the first electrode, so that a user can conveniently electrically connect the first electrode, the second electrode and the positive electrode and the negative electrode of the power supply.

2. The utility model provides an electrolysis subassembly of dish washer, mounting structure still includes the first insulation boss, the first insulation boss is located insulating barrier and/or on the first insulation frame, be equipped with on the first electrode and be suitable for the holding the first opening of first insulation boss, be equipped with the first insulation chamber on the first insulation boss, second conductive structure passes the first insulation chamber with the contact of second electrode. Through setting up first insulation boss, can effectively carry out the insulating separation between first electrode and the second conductive structure to make the second conductive structure only can be connected with the second electrode electricity, and can not be connected with first electrode electricity, guaranteed electrolysis assembly's operational reliability.

3. The utility model provides an electrolysis subassembly of dish washer, mounting structure still includes the insulating boss of second, the insulating boss of second is located the second insulation frame and/or on the insulating barrier, be equipped with on the second electrode and be suitable for the holding the second opening of the insulating boss of second, be equipped with the insulating chamber of second on the insulating boss of second, first conductive structure passes first electrode holding in the insulating chamber of second. Through setting up the insulating boss of second, can effectively carry out the insulating separation between second electrode and the first conductive structure to make first conductive structure only can be connected with the first electrode electricity, and can not be connected with the second electrode electricity, guaranteed electrolysis assembly's operational reliability.

4. The utility model provides an electrolysis subassembly of dish washer, mounting structure still includes at least one pothook, the pothook includes: the handle part is arranged on the second insulating frame and extends towards the first insulating frame; and the hook part is arranged at one end of the handle part, which is far away from the second insulating frame, and is propped against one side, back to the second insulating frame, of the first insulating frame. Through setting up the pothook, can make first insulation frame and second insulation frame carry out the steady connection after packing into the electrolysis structure to make first mounting structure, second mounting structure and electrolysis structure install into a firm whole, can carry out effectual location to the electrolysis structure.

5. The utility model provides an electrolytic device of dish washer, include: the water tank body is provided with a water tank cavity, one side wall of the water tank body, which is far away from the wiring terminal, is a first water tank side wall, and one side wall of the water tank body, which is close to the wiring terminal, is a second water tank side wall; the installation structure and the electrolysis structure of the electrolysis component are arranged in the water tank cavity, and the conductive structure partially extends out of the water tank cavity; and the at least two sealing pieces are arranged between the side wall of the second water tank and the mounting structure and are arranged corresponding to the conductive structure. Through setting up the sealing member, can effectively prevent electrolyte outflow to improve whole electrolytic device's security.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a cross-sectional view of an electrolyzer provided by the present invention;

FIG. 2 is an enlarged view of a portion of area A of FIG. 1;

FIG. 3 is an enlarged view of a portion of area B of FIG. 1;

FIG. 4 is a schematic view of a protective cover of the present invention on an electrolysis apparatus;

FIG. 5 is a schematic view of a second structure of a protective cover on an electrolysis device according to the present invention;

description of reference numerals:

b 901-water tank chamber; b904 — first tank sidewall; b 905-a second water tank side wall; b 9051-protective groove, b 9052-conducting opening,

c 0-electrolytic component, c 10-insulating separator, c 11-first insulating frame, c 111-abdicating through hole, c 12-second insulating frame, c 13-first insulating boss, c 131-first insulating cavity, c 14-second insulating boss, c 141-second insulating cavity, c 15-third insulating boss, c 151-first positioning hole, c 16-fourth insulating boss, c 161-second positioning hole, c 17-clamping hook, c 171-handle, c 172-hook,

c 2-electrolytic structure, c 201-sheet-like body, c 202-electrolytic through-hole, c 21-first electrode, c 211-first opening, c 22-second electrode, c 221-second opening,

c301 terminal, c302 conductive body, c303 wire fixing structure, c3031 first nut, c3032 second nut, c31 first conductive structure, c32 second conductive structure,

c 4-wire, c 41-mounting hole,

c 5-third seal, c 51-seal body, c 52-tapered seal,

c 6-protective cover, c 61-connecting end, c 62-free end,

c 71-a frangible body, c 72-a first through groove, c 73-a second through groove,

c 811-a first buckle body, c 812-a card slot, c 813-a first guiding inclined plane, c 821-a second buckle body, c 822-an abdicating slot, c 823-a second guiding inclined plane,

c91 sink groove, c92 stop line lug.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Examples

As shown in fig. 1 to 5, the embodiment provides an electrolytic component of a dishwasher, which has the following specific structure, and the electrolytic component c0 comprises:

a mounting structure;

an electrolytic structure comprising at least two electrodes, wherein at least one first electrode c21 and at least one second electrode c22 are arranged on the mounting structure at intervals;

at least two conductive structures sequentially penetrating the first electrode c21 and the second electrode c 22; and at least two of the conductive structures are provided with at least one first conductive structure c31 and at least one second conductive structure c32, wherein the first conductive structure is electrically connected with the first electrode, and the second conductive structure is electrically connected with the second electrode.

In use, one of the first conductive structure c31 and the second conductive structure c32 is electrically connected to a positive electrode, and the other is electrically connected to a negative electrode, so that the first electrode c21 electrically connected to the first conductive structure c31 is an anode and the second electrode c22 electrically connected to the second conductive structure c32 is a cathode, or the first electrode c21 is a cathode and the second electrode c22 is an anode, by disposing the first electrode c21 and the second electrode c22 on the mounting structure at intervals, bacteria in the dishwasher can be killed through electrolysis, so that the dishware can be stored and kept in the dishwasher for a long time, and at the same time, since the first conductive structure c31 sequentially penetrates through the first electrode c21 and the second electrode c22 and the second conductive structure c32 sequentially penetrates through the first electrode c21 and the second electrode c22, the first conductive structure c31 is only required to be selectively electrically connected to the positive electrode or the negative electrode, and the second conductive structure c32 is selectively electrically connected to the positive electrode or the negative electrode 32, that is, it is ensured that the polarities of the power supplies connected to the first conductive structure c31 and the second conductive structure c32 are different, so that the first electrode c21 can be selectively connected to positive electrode electricity or negative electrode electricity, and the second electrode c22 can be selectively connected to negative electrode electricity or positive electrode electricity having a polarity different from that of the first electrode c21, which is convenient for a user to electrically connect the first electrode c21, the second electrode c22 and the positive and negative electrodes of the power supplies.

The specific electrolysis principle is as follows:

cathode 2 Cl-2 e ═ Cl2

Anode 2H2O +2e- ═ H2+2OH-

And (3) total reaction: 2Cl- +2H2O ═ H2+ Cl2+2OH-

A disproportionation reaction will occur between chlorine and water: cl2+ H2O is HCl + HClO, and the generated HClO has certain oxidability, so that the effect of killing bacteria and viruses is realized.

In the embodiment, the adopted salt is NaCl which is non-toxic and stable in property, is not easy to deteriorate, and is convenient to store and carry out electrolytic disinfection operation. Other chlorates, such as KCl, CaCl, etc., are not recommended because of their own potential for harm to the human body.

In this embodiment, in order to implement the installation operation of the electrolytic component, the installation structure and the electrolytic structure of the electrolytic component are disposed in the water tank chamber, and the conductive structure partially extends out of the water tank chamber b 901.

Further, in order to realize the conductive operation, one end of each conductive structure, which is far away from the electrode, is a terminal, and the terminal of each conductive structure is respectively connected with a lead c 4; the mounting structure includes an insulating spacer, the first electrode is located on a side of the insulating spacer adjacent to the terminal, and the second electrode is located on a side of the insulating spacer remote from the terminal.

In this embodiment, the mounting structure further includes:

the first insulating frame c11 is located on one side of the first electrode, which faces away from the insulating partition plate, and the first insulating frame is provided with abdicating through holes through which the first conductive structure and the second conductive structure respectively pass;

a second insulating frame c12 located on the side of the second electrode facing away from the insulating spacer;

a first insulating boss c13, where the first insulating boss is disposed on the insulating partition and/or the first insulating frame, the first electrode is provided with a first opening c211 suitable for accommodating the first insulating boss, the first insulating boss is provided with a first insulating cavity c131, and the second conductive structure passes through the first insulating cavity and contacts with the second electrode;

and the second insulating boss c14 is arranged on the second insulating frame and/or the insulating partition plate, a second opening suitable for accommodating the second insulating boss is arranged on the second electrode, a second insulating cavity is arranged on the second insulating boss, and the first conductive structure penetrates through the first electrode and is accommodated in the second insulating cavity.

By arranging the first insulation boss and the second insulation boss, the corresponding electrode is only contacted with the corresponding conductive structure, so that the stability of current transmission can be ensured.

Specifically, the first insulation boss and the insulation partition plate are integrally formed, and the second insulation boss and the second insulation frame are integrally formed. As a modification, the first insulation boss and the second insulation boss may be provided in the form of a gasket.

In this embodiment, the mounting structure further includes:

a third insulation boss c15, disposed on the second insulation frame and extending in a direction away from the electrode, wherein the third insulation boss is provided with a first positioning hole adapted to accommodate the second conductive structure; a fourth insulation boss c16 arranged on the second insulation frame and extending out in the direction far away from the electrode, wherein a second positioning hole communicated with the second insulation cavity is arranged on the fourth insulation boss; one surface of the fourth insulation boss back to the electrode is flush with one surface of the third insulation boss back to the electrode.

In this embodiment, the mounting structure further includes at least one hook c17, and the hook includes: a handle c171 provided on the second insulating frame and extending toward the first insulating frame; and the hook part c172 is arranged at one end of the handle part far away from the second insulating frame and is abutted against one side of the first insulating frame back to the second insulating frame.

Through setting up the pothook, can press from both sides first insulation frame, second insulation frame, the first electrode that is located between first insulation frame and the second insulation frame, second electrode and insulating barrier tightly, make a plurality of subassemblies form a complete structure to avoid taking place to scatter.

In this embodiment, the electrode is an electrolytic sheet, the electrolytic sheet includes a sheet body and a plurality of electrolytic through holes disposed on the sheet body, and by disposing the electrolytic through holes, the contact area between the salt solution and the current can be increased, and further the reaction rate can be increased. Specifically, the electrolytic through holes are arranged in a circular manner. The plurality of electrolytic through holes may be arranged in a scattered manner without being limited to a specific arrangement, and in a preferred embodiment, the plurality of electrolytic through holes are uniformly distributed on the sheet-like body.

In this embodiment, the first electrode and the second electrode are parallel to each other. An anode reaction is carried out on one of the first electrode and the second electrode, and a cathode reaction is carried out on the other of the first electrode and the second electrode.

In this embodiment, the conductive structure includes: the conductive body is electrically connected with the corresponding electrode; and the wire fixing structure is arranged at one end of the conductive body, which is far away from the electrode, and is used for fixing the lead. Through setting up electrically conductive body, carry out electric energy transport to corresponding electrode.

Specifically, the conductive body is a bolt. The wire fixing structure comprises a first nut and a second nut which are respectively screwed on the bolt, and the wire is clamped between the first nut and the second nut.

In this embodiment, the wire itself may be directly wound around the conductive body, and as a preferred embodiment, a mounting hole is formed at one end of the wire, and the wire is sleeved on the conductive body through the mounting hole. Specifically, the mounting hole is arranged in a circular hole, and the mounting hole is sleeved on the bolt, so that the conducting operation is performed.

The present embodiment also provides an electrolysis apparatus, comprising:

the water tank comprises a water tank body, a water tank cavity b901 is formed, one side wall of the water tank body, which is far away from the terminal c301, is a first water tank side wall b904, and one side wall of the water tank body, which is close to the terminal c301, is a second water tank side wall b 905;

the electrolytic assembly, the mounting structure of the electrolytic assembly c0 and the electrolytic structure c2 are arranged in the water tank chamber b901, and the conductive structure partially extends out of the water tank chamber b 901;

and at least two sealing pieces c5 arranged between the second water tank side wall b905 and the mounting structure and corresponding to the conductive structure.

The sealing member c5 is a sealing ring and includes a sealing body c51 in a sheet shape, and a tapered sealing portion c52 extending from the sealing body c51 toward the terminal c 301; the sealing body c51 and the conical sealing part c52 are integrally formed, a sealing hole which sequentially penetrates through the conical sealing part c52 and the sealing body c51 is formed in the sealing ring, and the sealing hole is suitable for the conductive structure to penetrate through.

Further, in the present embodiment, in order to realize a stable mounting operation of the entire electrolytic apparatus, the following arrangement is adopted:

the water tank body comprises a first water tank side wall and a second water tank side wall which are arranged oppositely, the first water tank side wall and the second water tank side wall are matched to enclose an accommodating cavity suitable for accommodating an electrolytic component c0, a protective groove b9051 is arranged on one side, back to the first shell, of the second shell, and a conduction opening b9052 for communicating the protective groove b9051 with the accommodating cavity is formed in the second shell;

the protective cover c6 is disposed on the first and second tank sidewalls, and has a first state of closing the protective bath b9051 and a second state of opening the protective bath b 9051. Through setting up the protective cover, can shelter from the electrically conductive body that is located the inside of protective tank to can avoid during external water directly enters into the protective tank, lead to electrically conductive body self to take place the short circuit. Meanwhile, the pollution to the conductive body caused by external dust entering the protective groove can be avoided.

Specifically, one end of the protecting cover c6 is a connecting end c61 rotatably connected with the second housing, and the other end is a free end c62 detachably connected with the second housing.

By the above operation, the space of the opening in the shield groove can be fully utilized. As a modification, in addition to the form of rotatably disposing the protective cover, a form of drawing and disposing the protective cover may be employed, and at this time, a slide way may be disposed on the first tank sidewall or the second tank sidewall, and the protective cover may be embedded in the slide way. In a preferred embodiment, the connecting end c61 is rotatably connected to the second tank sidewall by a flexible structure.

In this embodiment, the easy-folding structure includes an easy-folding body c71 and a first through groove c72, and the first through groove c72 is disposed on a side of the easy-folding body c71 opposite to the notch of the protection groove b 9051.

Specifically, the first through groove is arranged in a semicircular groove mode, and as a modification, the first through groove can also be arranged in a triangular mode. Only need make the protective cover like this use first logical groove department to overturn for the axle towards one side of keeping away from the link of protective groove, or make the protective cover keep at natural state, alright realize making the protective cover switch between first state and second state, have simple structure, the advantage of easily realizing.

In this embodiment, the easy-folding structure further includes a second through groove c73, and the second through groove c73 is disposed on a side of the easy-folding body c71, which faces the same direction as the notch of the protection groove b 9051.

Through setting up the second and leading to the groove, can increase protective cover self rotation convenience once more, avoid taking place to rotate the back at the second and lead to the groove position to take place elasticity and concentrate when the protective cover, lead to protective cover self to have the impetus of taking place to open the action.

As an alternative embodiment, the breakable structure may be made of a flexible material or an elastic material.

In this embodiment, the protective cover c6, the frangible structure and the second housing are integrally formed. As a variant, it is also possible to arrange a protective cover or the like on the second housing in a splicing manner.

In this embodiment, in order to stabilize the protecting cover on the second tank sidewall, the free end c62 is detachably connected to the second tank sidewall through a snap structure.

Specifically, the snap structure includes: the first buckle comprises a first buckle body c811 arranged on the groove wall of the protective groove b9051 and a clamping groove c812 formed between the first buckle body c811 and the groove bottom of the abdicating groove c 822; a first guiding inclined plane c813 is formed on one side of the first buckle body c811 facing away from the clamping groove c 812; the second buckle comprises a second buckle body c821 and a yielding groove c822 which are respectively arranged on the protective cover c6, a second guiding inclined plane c823 which is matched with the first guiding inclined plane c813 is arranged on the second buckle body c821, and the yielding groove c822 is suitable for accommodating the first buckle body c811 when the second buckle body c821 is clamped in the clamping groove c 812; the second buckle body c821 is clamped in the clamping groove c812 when the protective cover c6 is in the first state, and is separated from the clamping groove c812 when the protective cover c6 is in the second state.

Only need detain the body card with the second like this and go into in the draw-in groove or deviate from the draw-in groove, alright in order to realize the locking of protective cover at first state and remove the locking, simple structure, convenient operation, and the locking effect is firm.

In this embodiment, at least one sinking groove c91 is disposed at the bottom of the protection groove b9051, and the through opening b9052 communicates the sinking groove c91 with the accommodating cavity. Through setting up the recess, can conveniently screw up or relax the operation first nut and second nut to improve the convenience of operation.

In this embodiment, the device further includes a line blocking structure disposed in the protective groove b 9051. Through setting up the stop line structure, can guide spacing to the wire that the electrolysis subassembly was drawn forth, make the wiring in the guard bath more neat standard.

Specifically, the wire blocking structure is a projection arranged on the protective groove, the specific shape and size of the wire blocking structure are not limited too much, the wire blocking structure acts at the front position of the wire rotating path, and the wire stops rotating continuously after being rotated to the wire blocking structure by external force. In this embodiment, the line blocking protrusion c92 is disposed near the sinking groove c 91. As a modification, it may be disposed appropriately away from the groove as long as the blocking action of the wire can be achieved, and is not excessively limited in the present embodiment.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (19)

1. An electrolytic assembly for a dishwasher, comprising:

a mounting structure;

an electrolytic structure (c2) comprising at least two electrodes, and at least two electrodes, having at least one first electrode (c21) and at least one second electrode (c22), the first electrode (c21) and the second electrode (c22) being spaced apart on the mounting structure;

at least two electrically conductive structures that sequentially penetrate the first electrode (c21) and the second electrode (c 22); and at least two of the conductive structures are provided with at least one first conductive structure (c31) and at least one second conductive structure (c32), wherein the first conductive structure (c31) is electrically connected with the first electrode (c21), and the second conductive structure (c32) is electrically connected with the second electrode (c 22).

2. The electrolytic assembly of a dishwasher according to claim 1,

one end of each conductive structure, which is far away from the electrode, is provided with a terminal (c301), and the terminal (c301) of each conductive structure is respectively connected with a lead (c 4);

the mounting structure includes an insulating spacer (c10), the first electrode (c21) being located on a side of the insulating spacer (c10) near the terminal (c301), and the second electrode (c22) being located on a side of the insulating spacer (c10) far from the terminal (c 301).

3. The electrolytic assembly of claim 2 wherein the mounting structure further comprises:

a first insulating frame (c11) located on a side of the first electrode (c21) facing away from the insulating partition plate (c10), wherein the first insulating frame (c11) is provided with a yielding through hole (c111) through which the first conductive structure (c31) and the second conductive structure (c32) respectively pass;

a second insulating frame (c12) located on a side of the second electrode (c22) facing away from the insulating spacer (c 10).

4. The electrolyzing assembly of claim 3, wherein said mounting structure further comprises a first insulating protrusion (c13), said first insulating protrusion (c13) is disposed on said insulating partition (c10) and/or said first insulating frame (c11), said first electrode (c21) is provided with a first opening (c211) adapted to receive said first insulating protrusion (c13), said first insulating protrusion (c13) is provided with a first insulating cavity (c131), and said second conductive structure (c32) passes through said first insulating cavity (c131) to contact said second electrode (c 22).

5. The electrolyzing assembly of claim 4, wherein said mounting structure further comprises a second insulating protrusion (c14), said second insulating protrusion (c14) is disposed on said second insulating frame (c12) and/or said insulating partition (c10), said second electrode (c22) is provided with a second opening (c221) adapted to receive said second insulating protrusion (c14), said second insulating protrusion (c14) is provided with a second insulating cavity (c141), and said first conductive structure (c31) is received in said second insulating cavity (c141) through said first electrode (c 21).

6. The electrolyzing assembly of a dishwasher of claim 5, wherein said first insulating ledge (c13) is integrally formed with said insulating barrier (c10) and said second insulating ledge (c14) is integrally formed with said second insulating frame (c 12).

7. The electrolytic assembly of claim 5 wherein the mounting structure further comprises:

a third insulating boss (c15) arranged on the second insulating frame (c12) and extending out in a direction away from the electrode, wherein a first positioning hole (c151) suitable for accommodating the second conductive structure (c32) is formed in the third insulating boss (c 15);

the fourth insulating boss (c16) is arranged on the second insulating frame (c12) and extends out in the direction away from the electrode, and a second positioning hole (c161) communicated with the second insulating cavity (c141) is formed in the fourth insulating platform; the side of the fourth insulation boss (c16) facing away from the electrode is flush with the side of the third insulation boss (c15) facing away from the electrode.

8. The electrolyzing assembly of claim 3, wherein said mounting structure further comprises at least one catch (c17), said catch (c17) comprising:

a handle (c171) provided on the second insulating frame (c12) and extending toward the first insulating frame (c 11);

and the hook part (c172) is arranged at one end of the handle part (c171) far away from the second insulating frame (c12) and is abutted against one side, back to the second insulating frame (c12), of the first insulating frame (c 11).

9. The electrolytic assembly of a dishwasher according to any one of claims 1 to 8, wherein the electrode is an electrolytic sheet comprising a sheet-like body (c201), and a plurality of electrolytic through-holes (c202) provided on the sheet-like body (c 201).

10. The electrolytic assembly of a dishwasher according to claim 9, wherein a plurality of said electrolytic through holes (c202) are evenly distributed on said sheet-like body (c 201).

11. The electrolytic assembly of a dishwasher of any one of claims 1 to 8, wherein the first electrode (c21) and the second electrode (c22) are parallel to each other.

12. The electrolytic assembly of a dishwasher of any one of claims 1 to 8 wherein the conductive structure comprises:

a conductive body (c302) electrically connected with the corresponding electrode;

and the wire fixing structure (c303) is arranged at one end of the conductive body (c302) far away from the electrode and is used for fixing a lead (c 4).

13. The electrolytic assembly of claim 12, wherein the conductive body (c302) is a bolt.

14. The electrolysing assembly of a dishwasher according to claim 13, wherein the wire fixing structure (c303) comprises a first nut (c3031) and a second nut (c3032) screwed onto the bolt, respectively, the conducting wire (c4) being clamped between the first nut (c3031) and the second nut (c 3032).

15. The electrolyzing assembly of claim 12, wherein said conducting wire (c4) has a mounting hole (c41) at one end, and said conducting wire (c4) is sleeved on said conducting body (c302) through said mounting hole (c 41).

16. An electrolysis device of a dishwasher, comprising:

a tank body formed with a tank chamber (b 901);

the electrolytic component of the dishwasher of any one of claims 1 to 15, said mounting structure of the electrolytic component (c0) and the electrolytic structure (c2) being provided in the water tank chamber (b901), said electrically conductive structure partially protruding outside the water tank chamber (b 901).

17. An electrolysis device of a dishwasher, comprising:

the water tank comprises a water tank body, a water tank cavity (b901) is formed, one side wall of the water tank body, which is far away from a terminal (c301), is a first water tank side wall (b904), and one side wall of the water tank body, which is close to the terminal (c301), is a second water tank side wall (b 905);

the electrolytic assembly of dishwasher of any of claims 2 to 15, said mounting structure and electrolytic structure (c2) of said electrolytic assembly (c0) being provided in said water tank chamber (b901), said electrically conductive structure partially protruding outside said water tank chamber (b 901);

at least two seals (c5) disposed between the second tank sidewall (b905) and the mounting structure and disposed in correspondence with the conductive structure.

18. The electrolyzer of claim 17, characterized in that said seal (c5) is a gasket and comprises a sealing body (c51) in the form of a sheet, and a tapered sealing portion (c52) extending from said sealing body (c51) towards said terminal (c 301); the sealing body (c51) and the conical sealing part (c52) are integrally formed, a sealing hole which sequentially penetrates through the conical sealing part (c52) and the sealing body (c51) is formed in the sealing ring, and the sealing hole is suitable for the conductive structure to penetrate through.

19. A dishwasher, characterized by comprising an electrolysis device of the dishwasher according to any one of claims 16 to 18.

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