CN217646613U - Electrode subassembly, wind channel subassembly and integrated kitchen - Google Patents

Abstract

The utility model relates to an electrode subassembly, wind channel subassembly and integrated kitchen. Wherein electrode subassembly includes: the air purifier comprises a shell, a first air inlet and a second air outlet, wherein the shell is provided with a purification cavity and is provided with an air inlet and an air outlet which are communicated with the purification cavity; an ionizing decomposition assembly disposed on the housing, the ionizing decomposition assembly for decomposing substances in a gas flowing therethrough; the ion adheres to the subassembly, the ion adheres to the subassembly and sets up on the casing, the ion adheres to the subassembly and is used for adsorbing the particulate matter that has the ion. The utility model discloses an electrode subassembly decomposes the material in the gaseous of entering casing through ionization decomposition subassembly, for example, when the gas that enters into in the casing is the oil smoke, ionization decomposition subassembly decomposes the oil smoke into the particulate matter of taking positive and negative ion, and the cooperation through ion attachment component and ionization decomposition subassembly can realize carrying out comparatively thorough purification to the oil smoke.

Description

Electrode subassembly, wind channel subassembly and integrated kitchen

Technical Field

The utility model relates to a household kitchen ware especially relates to electrode subassembly and integrated kitchen.

Background

The household appliance is characterized in that the household appliance is provided with a cooking fume treatment device, wherein the cooking fume treatment device is used for treating cooking fume which is difficult to treat in the prior household appliance, and the cooking fume is accumulated on the household appliance or is discharged into the air in a large amount in the cooking fume treatment process to influence the external environment or influence the household appliance. The oil smoke treatment is a difficult problem in the prior art, and the oil smoke cleaning is difficult to realize.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an electrode assembly, an air duct assembly and an integrated stove for solving the problem of difficulty in oil smoke treatment.

An electrode assembly, comprising: the air purifier comprises a shell, a first air inlet and a second air outlet, wherein the shell is provided with a purification cavity and an air inlet and an air outlet which are communicated with the purification cavity; an ionizing decomposition assembly disposed on the housing, at least a portion of the ionizing decomposition assembly being located within the purification chamber, the ionizing decomposition assembly being configured to decompose substances in a gas flowing therethrough; the ion adheres to the subassembly, the ion adheres to the subassembly and sets up on the casing, the ion adheres to at least part of subassembly and is located purify the intracavity, the ion adhere to the subassembly with the ionization decomposes the subassembly interval and sets up, the ion adheres to the subassembly and is used for adsorbing the particulate matter that has the ion.

The utility model discloses an electrode subassembly decomposes the material in the gaseous of entering casing through ionization decomposition subassembly, for example, when the gas that enters into in the casing is the oil smoke, ionization decomposition subassembly will decompose the oil smoke, decompose the oil smoke into the particulate matter of taking positive and negative ion, can be with comparatively thorough processing of oil smoke through the mode of decomposition, can adsorb the positive and negative ion particulate matter that produces after decomposing through ion attachment component behind the particulate matter of the positive and negative ion that handles the oil smoke, can realize carrying out comparatively thorough purification to the oil smoke through the cooperation of ion attachment component and ionization decomposition subassembly, reduce the pollution that the oil smoke accumulation leads to, avoid being difficult to clear problem.

In one embodiment, the ionization and decomposition assembly comprises a first decomposition electrode plate and a second decomposition electrode plate which are arranged at intervals, and the first decomposition electrode plate and the second decomposition electrode plate are used for being respectively connected with two poles of a power supply. The decomposition of the substance can be realized through the cooperation of the first decomposition electrode plate and the second decomposition electrode plate, the decomposition of the substance can be realized by respectively and rapidly carrying out on the oil smoke when the first decomposition electrode plate interacts with the second decomposition electrode plate, and the first decomposition electrode plate and the second decomposition electrode plate are simple in structure in a mutually matched mode.

In one embodiment, the first decomposition electrode plate comprises a decomposition electrode plate body and a first decomposition plate, the first decomposition plate is arranged on the decomposition electrode plate body, the width of the first decomposition plate is gradually reduced towards the direction far away from the decomposition electrode plate body, and the second decomposition electrode plate is arranged on one side of the first decomposition plate far away from the decomposition electrode plate body. The difficulty that carries out the decomposition when can making first decomposition board and second decomposition electrode board interact is lower through the width that reduces gradually first decomposition board towards the direction of keeping away from the decomposition polar plate body, is favorable to reducing the degree of difficulty of decomposing the material, promotes the efficiency of decomposing. When the decomposition is needed, the second decomposition electrode plate is acted by the tip of the first decomposition plate to generate the decomposition effect.

In one embodiment, the decomposition polar plate body is in a long strip shape, the number of the first decomposition plates is multiple, and the first decomposition plates are arranged at intervals along the length direction of the decomposition polar plate body. The number that sets up to rectangular shape and first decomposition board through decomposing the polar plate body sets up to a plurality ofly, can realize a plurality of action points fast more through this kind of mode, can effectually promote the efficiency of discharging, can realize the efficient and decompose at the action in-process, is favorable to the stable use of product.

In one embodiment, the first splitting electrode plate further comprises a second splitting plate, the second splitting plate is arranged on the splitting electrode plate body, the second splitting plate and the first splitting plate are located on two opposite sides of the splitting electrode plate body, the number of the second splitting electrode plates is at least two, and the first splitting electrode plate is located between two adjacent second splitting electrode plates. The efficiency that can make the decomposition through the setting of second decomposition board is more heightened, and the setting of second decomposition board makes the both sides homoenergetic of decomposing the polar plate body act on with the second decomposition electrode board, and efficiency is higher.

In one embodiment, a part of the second splitter electrode plate protrudes to form a convex first arc discharge peak, and the first splitter electrode plate is arranged opposite to the first arc discharge peak. The second decomposition electrode plate and the first decomposition electrode plate can act more stably by forming the first arc discharge peak through the outward protrusion of the part of the second decomposition electrode plate, and the interaction efficiency is higher.

In one embodiment, the second split electrode plate protrudes from the side away from the first arcing peak to form a convex second arcing peak. The contact area of the first decomposition electrode plate may be increased by forming the second arcing peak at the other side of the second decomposition electrode plate.

In one of them embodiment, still include first connecting rod and second connecting rod, the quantity of first electrolysis electrode board is a plurality of, and the quantity of second electrolysis electrode board is a plurality of, and is a plurality of first electrolysis electrode board and a plurality of second electrolysis electrode board is in proper order along first direction interlude interval setting and second direction interlude interval setting, along a plurality of that the first direction set up first electrolysis electrode board passes through the first connecting rod is connected, and is a plurality of be equipped with the second via hole on the second electrolysis electrode board, the first connecting rod passes the second via hole, along a plurality of that the first direction set up the second electrolysis electrode board passes through the second connecting rod and connects, and is a plurality of be equipped with the first via hole on the second electrolysis electrode board, the second connecting rod passes the first via hole. Through the setting of first connecting rod can be connected a plurality of first electrolytic electrode boards, can connect a plurality of second electrolytic electrode boards through the second connecting rod, realize the decomposition of bigger area through this kind of mode, will decompose the efficiency and further improve, can effectual realization will decompose the area expansion to the multi-level arrangement of first electrolytic electrode board and second electrolytic electrode board.

In one embodiment, a plurality of the first and second split electrode plates are sequentially arranged along the first direction and the second direction at intervals, which may be understood as a manner that the first and second split electrode plates are repeatedly arranged a plurality of times, for example, the first and second split electrode plates are repeatedly arranged.

In one embodiment, the housing comprises a housing body, a first insulating support assembly and a second insulating support assembly, the first insulating support assembly and the second insulating support assembly are arranged on the housing body, the ionization and decomposition assembly is arranged on the first insulating support assembly, and the ion attachment assembly is arranged on the second insulating support assembly. Through set up first insulation supporting component and second insulation supporting component on casing body, decompose the subassembly through will ionizing and set up on first insulation supporting component, through attaching to the subassembly setting can effectual realization insulation support on the second insulation supporting component with ionizing, improve the security nature of product.

In one embodiment, the first insulating support assembly includes a first support, a second support, and a third support, the first support, the second support, and the third support are disposed on the housing body, and the ionization and decomposition assembly is disposed on the first support, the second support, and the third support.

In one embodiment, the second insulating support assembly includes a fourth support and a fifth support, the fourth support and the fifth support are disposed on the housing body, and the ion attachment assembly is disposed on the housing body.

In one embodiment, the ion attachment assembly includes a plurality of first adsorption electrode plates, a plurality of second adsorption electrode plates, a plurality of first adsorption electrode plates and a plurality of second adsorption electrode plates, which are sequentially inserted and spaced, and the first adsorption electrode plates and the second adsorption electrode plates are respectively used for connecting two poles of a power supply. Through setting up first adsorption electrode board and second adsorption electrode board, can realize different positive and negative ion particulate matters's absorption through the different electrodes on first adsorption electrode board and the second adsorption electrode board in the use, can carry out the material through a plurality of first adsorption electrode boards and a plurality of second adsorption electrode boards that alternate the interval and set up more high-efficiently and absorb simultaneously, guarantee purifying effect.

A second aspect of the present application provides an air duct assembly.

An air duct assembly comprising: the above electrode assembly; the air guide shell is provided with an air guide cavity, a first opening and a second opening are formed in the air guide shell, the first opening and the second opening are communicated with the air guide cavity, the electrode assembly is arranged on the air guide shell, the electrode assembly is located in the air guide cavity, and the electrode assembly is used for purifying gas flowing through; and the fan assembly is arranged on the air guide shell and is communicated with the air guide cavity through the first opening or the second opening.

The air duct assembly disclosed by the second aspect of the application can guide external gas into the air guide shell through the fan assembly, and can realize rapid treatment of the gas in the air guide shell through the electrode assembly arranged in the air guide shell. By the method, the gas can be efficiently and actively treated.

A third aspect of the present application provides an integrated cooker.

An integrated cooker comprising: the air duct assembly; the air duct assembly is arranged on the shell assembly; and the heating assembly is arranged on the shell assembly.

The integrated kitchen that this application third aspect was disclosed can absorb the oil smoke that heating element produced in to the external pot body heating process through the wind channel subassembly, can handle the oil smoke of inhaling in the wind channel subassembly through the wind channel subassembly after absorbing the oil smoke, can realize the processing of oil smoke and avoid the oil smoke to discharge the polluted environment once more by the efficient, also can reduce the pollution to integrated kitchen.

Drawings

FIG. 1 is a perspective view of an electrode assembly;

FIG. 2 is a left side view of the electrode assembly;

FIG. 3 is a front view of the electrode assembly;

FIG. 4 is a perspective view of an ionization decomposition assembly of the electrode assembly;

FIG. 5 is a front view of the ionization decomposition assembly;

FIG. 6 is an enlarged view of a portion of FIG. 5;

FIG. 7 is a front view of an ion attachment assembly;

fig. 8 is a perspective view of an ion attachment assembly.

Wherein, the corresponding relation between the reference mark and the part name is as follows:

1 housing, 11 housing body, 12 first insulating support assembly, 121 first support, 122 second support, 123 third support, 13 second insulating support assembly, 131 fourth support, 132 fifth support, 14 purge chamber;

2, ionizing decomposition components, 21 a first decomposition electrode plate, 211 a decomposition electrode plate body, 212 a first decomposition plate, 213 a second decomposition plate, 22 a second decomposition electrode plate, 221 a first arc discharge peak, 222 a second arc discharge peak, 223 a second via hole and 23 a first connecting rod;

3 ion attachment components, 31 first adsorption electrode plate, 32 second adsorption electrode plate, 33 third connecting rod, 34 fourth connecting rod.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention, taken in conjunction with the accompanying drawings and detailed description, is set forth below. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

An electrode assembly, a duct assembly and an integrated cooker according to some embodiments of the present invention will be described with reference to the accompanying drawings.

As shown in fig. 1 to 8, the present embodiment discloses an electrode assembly, which includes a casing 1, the casing 1 is provided with a purification chamber 14, the casing 1 is provided with an air inlet and an air outlet, and the air inlet and the air outlet are communicated with the purification chamber 14; the ionization decomposition component 2, the ionization decomposition component 2 is arranged on the shell 1, at least part of the ionization decomposition component 2 is positioned in the purifying cavity 14, and the ionization decomposition component 2 is used for decomposing substances in the gas flowing through; the ion adheres to the subassembly 3, and the ion adheres to the subassembly 3 and sets up on casing 1, and the ion adheres to at least part that the subassembly 3 is located and purifies the chamber 14, and the ion adheres to subassembly 3 and decomposes the interval setting of subassembly 2 with the ionization, and the ion adheres to subassembly 3 and is used for adsorbing the particulate matter that has the ion.

The utility model discloses an electrode subassembly decomposes the material in the gas that gets into in the casing 1 through ionization decomposition subassembly 2, for example, when the gas that enters into in the casing 1 is the oil smoke, ionization decomposition subassembly 2 will decompose the oil smoke, decompose the oil smoke into the particulate matter of taking positive and negative ion, can be with the comparatively thorough processing of oil smoke through the mode of decomposition, can adsorb the positive and negative ion particulate matter that produces after decomposing through ion attachment subassembly 3 behind the particulate matter of the positive and negative ion who handles the oil smoke after, can realize carrying out comparatively thorough purification to the oil smoke through the cooperation of ion attachment subassembly 3 and ionization decomposition subassembly 2, reduce the pollution that the oil smoke accumulation leads to, avoid being difficult to clear problem.

As shown in fig. 4, in addition to the features of the above embodiment, the present embodiment further defines: the ionization and decomposition assembly 2 comprises a first decomposition electrode plate 21 and a second decomposition electrode plate 22, the first decomposition electrode plate 21 and the second decomposition electrode plate 22 are arranged at intervals, and the first decomposition electrode plate 21 and the second decomposition electrode plate 22 are respectively connected with two poles of a power supply. Can realize the decomposition to the material through the cooperation of first decomposition electrode board 21 and second decomposition electrode board 22, will carry out the decomposition that can be swift realization material respectively to the oil smoke when first decomposition electrode board 21 interacts with second decomposition electrode board 22, the mode simple structure that first decomposition electrode board 21 and second decomposition electrode board 22 mutually supported.

As shown in fig. 4 to 6, in addition to the features of the above embodiment, the present embodiment further defines: the first decomposition electrode plate 21 includes a decomposition electrode plate body 211 and a first decomposition plate 212, the first decomposition plate 212 is disposed on the decomposition electrode plate body 211, the width of the first decomposition plate 212 is gradually reduced toward a direction away from the decomposition electrode plate body 211, and the second decomposition electrode plate 22 is located on a side of the first decomposition plate 212 away from the decomposition electrode plate body 211. The difficulty of decomposing when first decomposition plate 212 and second decomposition electrode plate 22 interact is lower through the width that reduces first decomposition plate 212 towards the direction of keeping away from decomposition electrode plate body 211 gradually, is favorable to reducing the difficulty of decomposing the material, promotes the efficiency of decomposing. The second decomposition electrode plate 22 is acted on by the tip of the first decomposition plate 212 when decomposition is required to produce a decomposition effect.

As shown in fig. 4 to 5, in addition to the features of the above embodiment, the present embodiment further defines: the resolving pole plate body 211 is in a long strip shape, the number of the first resolving plates 212 is multiple, and the multiple first resolving plates 212 are arranged at intervals along the length direction of the resolving pole plate body 211. Set up to rectangular shape and the quantity of first decomposition plate 212 into a plurality ofly through decomposing polar plate body 211, can realize a plurality of action points fast more through this kind of mode, can effectual promotion efficiency of discharging, can realize the efficient and decompose in the action process, be favorable to the stable use of product.

As shown in fig. 4 to 6, in addition to the features of the above embodiment, the present embodiment further defines: the first split electrode plate 21 further includes a second split plate 213, the second split plate 213 is disposed on the split electrode plate body 211, the second split plate 213 and the first split plate 212 are located at opposite sides of the split electrode plate body 211, the number of the second split electrode plates 22 is at least two, and the first split electrode plate 21 is located between two adjacent second split electrode plates 22. The efficiency of the decomposition can be increased by the arrangement of the second decomposition plate 213, and both sides of the decomposition electrode plate body 211 can be made to act on the second decomposition electrode plate 22 by the arrangement of the second decomposition plate 213, so that the efficiency is increased.

As shown in fig. 5 to 6, in addition to the features of the above embodiment, the present embodiment further defines: the second divided electrode plate 22 is partially protruded to form a convex first arc discharge peak 221, and the first divided electrode plate 21 is disposed opposite to the first arc discharge peak 221. The first arc discharge peak 221 is formed by the protrusion of the second electrolysis electrode plate 22, so that the second electrolysis electrode plate 22 and the first electrolysis electrode plate 21 can act more stably, and the interaction efficiency is higher.

As shown in fig. 5 to 6, in addition to the features of the above embodiment, the present embodiment further defines: the second split electrode plate 22 protrudes from the side away from the first arcing peak 221 to form a convex second arcing peak 222. The contact area of the first decomposition electrode plate 21 may be increased by forming the second arcing peak 222 at the other side of the second decomposition electrode plate 22.

As shown in fig. 4, in addition to the features of the above embodiment, the present embodiment further defines: still include head rod 23 and second connecting rod, the quantity of first decomposition electrode board 21 is a plurality of, the quantity of second decomposition electrode board 22 is a plurality of, a plurality of first decomposition electrode boards 21 and a plurality of second decomposition electrode boards 22 are in proper order along the first direction interlude interval setting and the interval setting of second direction interlude, a plurality of first decomposition electrode boards 21 that set up along the first direction pass through head rod 23 and connect, be equipped with second via 223 on a plurality of second decomposition electrode boards 22, head rod 23 passes second via 223, a plurality of second decomposition electrode boards 22 that set up along the first direction pass through the second connecting rod and connect, be equipped with first via on a plurality of second decomposition electrode boards 22, the second connecting rod passes first via. The plurality of first electrolytic electrode plates 21 can be connected through the arrangement of the first connecting rod 23, the plurality of second electrolytic electrode plates 22 can be connected through the second connecting rod, the decomposition of a larger area is realized through the mode, the decomposition efficiency is further improved, the multi-level arrangement of the first electrolytic electrode plates 21 and the second electrolytic electrode plates 22 can be effectively realized, and the decomposition area is enlarged.

As shown in fig. 4 to 5, in addition to the features of the above embodiment, the present embodiment further defines: the plurality of first and second electrolytic electrode plates 21 and 22 are sequentially arranged along the first direction at intervals and the second direction at intervals, and the first and second electrolytic electrode plates 21 and 22 may be understood as a manner in which the first and second electrolytic electrode plates 21 and 22 are repeatedly arranged for a plurality of times, for example, the first and second electrolytic electrode plates 21 and 22, and the first and second electrolytic electrode plates 21 and 22 are repeatedly arranged.

As shown in fig. 1, 4 and 7, in addition to the features of the above embodiments, the present embodiment further defines: the housing 1 includes a housing body 11, a first insulating support member 12 and a second insulating support member 13, the first insulating support member 12 and the second insulating support member 13 are provided on the housing body 11, the ionization and decomposition member 2 is provided on the first insulating support member 12, and the ion attachment member 3 is provided on the second insulating support member 13. Through set up first insulating supporting component 12 and second insulating supporting component 13 on casing body 11, through setting up ionization decomposition component 2 on first insulating supporting component 12, through attaching to the subassembly 3 and setting up the realization insulating support that can be effectual on second insulating supporting component 13 with the ion, improve the safety and usability of product.

As shown in fig. 1 to 2, in addition to the features of the above embodiment, the present embodiment further defines: the first insulating support assembly 12 includes a first support 121, a second support 122, and a third support 123, the first support 121, the second support 122, and the third support 123 are disposed on the housing body 11, and the ionization and decomposition assembly 2 is disposed on the first support 121, the second support 122, and the third support 123.

As shown in fig. 1 to 2, in addition to the features of the above embodiment, the present embodiment further defines: the second insulating support assembly 13 includes a fourth support 131 and a fifth support 132, the fourth support 131 and the fifth support 132 are disposed on the housing body 11, and the ion attachment assembly 3 is disposed on the housing body 11.

As shown in fig. 7 and 8, in addition to the features of the above embodiment, the present embodiment further defines: the ion attachment module 3 includes a first adsorption electrode plate 31, a second adsorption electrode plate 32, a third connecting rod 33 and a fourth connecting rod 34, the number of the first adsorption electrode plate 31 is a plurality of, the number of the second adsorption electrode plate 32 is a plurality of, a plurality of first adsorption electrode plates 31 and a plurality of second adsorption electrode plates 32 are inserted in sequence at intervals, and the first adsorption electrode plate 31 and the second adsorption electrode plate 32 are respectively used for connecting the two poles of the power supply. Through setting up first adsorption electrode board 31 and second adsorption electrode board 32, can realize the absorption of different positive and negative ion particulate matters through the different electrodes on first adsorption electrode board 31 and the second adsorption electrode board 32 in the use, a plurality of first adsorption electrode boards 31 and a plurality of second adsorption electrode boards 32 through interlude interval setting can carry out the material absorption by the efficient more simultaneously, guarantee purifying effect.

Example 2

A second embodiment of the present application discloses an air duct assembly comprising: the above electrode assembly; the air guide shell is provided with an air guide cavity, the air guide shell is provided with a first opening and a second opening, the first opening and the second opening are communicated with the air guide cavity, the electrode assembly is arranged on the air guide shell, the electrode assembly is located in the air guide cavity, and the electrode assembly is used for purifying gas flowing through; the fan assembly is arranged on the air guide shell and is communicated with the air guide cavity through the first opening or the second opening.

The air duct assembly disclosed in the second aspect of the application can introduce external gas into the air guide shell through the fan assembly, and can realize rapid treatment of the gas in the air guide shell through the electrode assembly arranged in the air guide shell. In this way, the gas can be efficiently and actively treated.

Example 3

The third embodiment of the present application discloses an integrated kitchen, includes: the air duct assembly; the air duct assembly is arranged on the shell assembly; and the heating assembly is arranged on the shell assembly.

The integrated kitchen that this application third aspect was disclosed can absorb the oil smoke that heating element produced in to the external pot body heating process through the wind channel subassembly, can handle the oil smoke of inhaling in the wind channel subassembly through the wind channel subassembly after absorbing the oil smoke, can realize the processing of oil smoke and avoid the oil smoke to discharge the polluted environment once more by the efficient, also can reduce the pollution to integrated kitchen.

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

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

Claims (10)

1. An electrode assembly, comprising:

the air purifier comprises a shell (1), wherein the shell (1) is provided with a purification cavity (14), the shell (1) is provided with an air inlet and an air outlet, and the air inlet and the air outlet are communicated with the purification cavity (14);

an ionization and decomposition assembly (2), wherein the ionization and decomposition assembly (2) is arranged on the shell (1), at least part of the ionization and decomposition assembly (2) is positioned in the purifying cavity (14), and the ionization and decomposition assembly (2) is used for decomposing substances in gas flowing through;

ion adheres to subassembly (3), ion adheres to subassembly (3) and sets up on casing (1), the at least part of ion adheres to subassembly (3) is located purify in chamber (14), ion adhere to subassembly (3) with ionization decomposes subassembly (2) interval setting, ion adheres to subassembly (3) and is used for adsorbing the particulate matter that has the ion.

2. The electrode assembly of claim 1, wherein the ionization and decomposition assembly (2) comprises a first decomposition electrode plate (21) and a second decomposition electrode plate (22), the first decomposition electrode plate (21) and the second decomposition electrode plate (22) are arranged at intervals, and the first decomposition electrode plate (21) and the second decomposition electrode plate (22) are used for being respectively connected with two poles of a power supply.

3. The electrode assembly according to claim 2, wherein the first decomposition electrode plate (21) comprises a decomposition electrode plate body (211) and a first decomposition plate (212), the first decomposition plate (212) is provided on the decomposition electrode plate body (211), the first decomposition plate (212) is gradually reduced in width toward a direction away from the decomposition electrode plate body (211), and the second decomposition electrode plate (22) is located on a side of the first decomposition plate (212) away from the decomposition electrode plate body (211).

4. The electrode assembly of claim 3, wherein the decomposition electrode plate body (211) has a long bar shape, the number of the first decomposition plates (212) is plural, and the plural first decomposition plates (212) are arranged at intervals along the length direction of the decomposition electrode plate body (211); and/or

First decomposition electrode board (21) still includes second decomposition board (213), second decomposition board (213) set up on decomposition electrode board body (211), second decomposition board (213) with first decomposition board (212) are located the both sides that decomposition electrode board body (211) is relative, the quantity of second decomposition electrode board (22) is two at least, first decomposition electrode board (21) are located adjacent two between second decomposition electrode board (22).

5. The electrode assembly according to claim 2, wherein a portion of the second divided electrode plate (22) protrudes to form a convex first arcing peak (221), and the first divided electrode plate (21) is disposed opposite to the first arcing peak (221).

6. The electrode assembly of claim 5, wherein the second split electrode plate (22) protrudes away from the first arcing peak (221) to form a convex second arcing peak (222).

7. The electrode assembly according to claim 2, further comprising a first connection rod (23) and a second connection rod, wherein the number of the first electrode plates (21) is plural, the number of the second electrode plates (22) is plural, the plural first electrode plates (21) and the plural second electrode plates (22) are sequentially arranged alternately in a first direction and in a second direction, the plural first electrode plates (21) arranged in the first direction are connected by the first connection rod (23), the plural second electrode plates (22) are provided with second through holes (223), the first connection rod (23) penetrates through the second through holes (223), the plural second electrode plates (22) arranged in the first direction are connected by the second connection rod, the plural second electrode plates (22) are provided with first through holes, and the second connection rod penetrates through the first through holes; and/or

The ion-adsorption type ion-adsorption device is characterized in that the shell (1) comprises a shell body (11), a first insulating supporting component (12) and a second insulating supporting component (13), the first insulating supporting component (12) and the second insulating supporting component (13) are arranged on the shell body (11), the ionization and decomposition component (2) is arranged on the first insulating supporting component (12), and the ion attachment component (3) is arranged on the second insulating supporting component (13).

8. The electrode assembly according to claim 1, wherein the ion attachment assembly (3) comprises a plurality of first adsorption electrode plates (31), a plurality of second adsorption electrode plates (32), a third connecting rod (33) and a fourth connecting rod (34), the plurality of first adsorption electrode plates (31) and the plurality of second adsorption electrode plates (32) are sequentially inserted and spaced, and the first adsorption electrode plates (31) and the second adsorption electrode plates (32) are respectively used for connecting two poles of a power supply.

9. An air duct assembly, comprising:

the electrode assembly of any one of claims 1 to 8,

the air guide shell is provided with an air guide cavity, a first opening and a second opening are formed in the air guide shell, the first opening and the second opening are communicated with the air guide cavity, the electrode assembly is arranged on the air guide shell and located in the air guide cavity, and the electrode assembly is used for purifying gas flowing through;

and the fan assembly is arranged on the air guide shell and is communicated with the air guide cavity through the first opening or the second opening.

10. An integrated cooker is characterized by comprising

The air duct assembly of claim 9;

the air duct assembly is arranged on the shell assembly;

a heating assembly disposed on the housing assembly.

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