CN219147502U - Dish washer air inlet structure and dish washer - Google Patents

Abstract

The utility model relates to an air inlet structure of a dish washer and the dish washer, comprising: the shell assembly is provided with a first air inlet; the inner container assembly is provided with a containing cavity, and a mounting cavity is formed between the outer side wall of the inner container assembly and the shell assembly; the air inlet assembly is arranged on the inner container assembly, the air inlet assembly is positioned in the mounting cavity, the air inlet assembly is provided with a second air inlet and an air outlet, the second air inlet is opposite to the inner container assembly, the first air inlet is communicated with the second air inlet, and the second air inlet and the air outlet are communicated with the accommodating cavity; and the heating component is used for heating the gas flowing through the air inlet component. The outer surface of the inner container assembly is an irregular plane, so that the second air inlet and the inner container assembly are arranged oppositely, and in the air inlet work starting process, a pressure difference is formed between the second air inlet and the inner container assembly, so that the air inlet efficiency and the air inlet quantity of the dish washer are improved.

Description

Dish washer air inlet structure and dish washer

Technical Field

The utility model relates to the field of tableware cleaning devices, in particular to an air inlet structure of a dish washing machine and the dish washing machine.

Background

The conventional dish washer drying modes are generally divided into two types: the first is to dry by using the waste heat in the dishwasher, and the other is to dry by adopting a PTC+fan mode. The first type of drying by utilizing waste heat does not need to add extra parts, but the last washing temperature needs to be heated to be very high to perform waste heat drying well, so that the energy consumption of the whole machine is greatly affected. Under the market demand of lower and lower energy consumption requirements at present, the drying effect of the tableware inside the dish washer can be improved by using hot air blown into the liner under the condition that the energy consumption of the whole machine is not increased much by using the blowing heat of the PTC+fan for drying. So that more and more dish washers on the market now adopt a drying mode of PTC+fan. But the drying mode of PTC+fan, because the air inlet subassembly sets up between inner bag and the shell curb plate subassembly, its air inlet passageway is narrow to lead to air inlet efficiency variation, the air inlet noise is big.

Disclosure of Invention

Based on this, it is necessary to provide a dish washer air intake structure and dish washer to solve the problem of poor air intake efficiency in the drying mode of dish washer by combining PTC and fan.

An air intake structure of a dishwasher, comprising: the shell assembly is provided with a first air inlet; the inner container assembly is arranged on the shell assembly, a containing cavity is formed on the inner container assembly, an installation cavity is formed between the outer side wall of the inner container assembly and the shell assembly, and the air inlet is communicated with the installation cavity; the air inlet assembly is arranged on the inner container assembly, the air inlet assembly is positioned in the mounting cavity, the air inlet assembly is provided with a second air inlet and an air outlet, the second air inlet is opposite to the inner container assembly, the first air inlet is communicated with the second air inlet, and the second air inlet and the air outlet are communicated with the accommodating cavity; the heating component is arranged on the air inlet component and is used for heating air flowing through the air inlet component.

The application discloses dish washer air inlet structure forms on the inner bag subassembly and holds the chamber as the clean operation space of dish washer, the inner bag subassembly sets up in the inboard of casing subassembly, form the installation cavity between inner bag subassembly and the casing subassembly, this installation cavity is used for installing air inlet subassembly, the both ends of air inlet subassembly are equipped with second air intake and air outlet respectively, make air inlet subassembly pass through second air intake and casing subassembly's first air intake intercommunication, the outside air of dish washer body can get into inside the air inlet subassembly through first air intake, the second air intake in proper order, and get into the holding intracavity of dish washer through the air outlet of air inlet subassembly, dry the kitchen utensils and appliances that hold the intracavity. The second air inlet is opposite to the inner container assembly, and a pressure difference is formed between the second air inlet and the inner container assembly in the air inlet work starting process, so that the air inlet efficiency and the air inlet quantity are improved, and the drying efficiency of the dish washing machine is further improved.

In one embodiment, the housing assembly includes a side plate assembly and a first rail assembly, the first rail assembly is disposed on the side plate assembly, the first rail assembly is provided with the first air inlet, the side plate assembly is located on the outer side of the liner assembly, and the mounting cavity is formed between the side plate assembly and the liner assembly. Through being equipped with first air intake on first crosspiece subassembly, and first air intake and second air intake are adjacent to be set up, and first crosspiece subassembly is located the different sides with the curb plate subassembly, and current dish washer generally sets up first air intake on the curb plate subassembly, and first air intake sets up relatively with the second air intake of air inlet subassembly, and its air inlet passageway is narrow, and the noise that causes is big, and the air inlet structure of this application improves first air intake setting position, can further increase air inlet passageway, improves air inlet efficiency and intake.

In one embodiment, the first rail assembly includes a rail body and a first air inlet portion, the rail body is disposed on the side plate assembly, the first air inlet portion is disposed on the rail body, and the first air inlet portion is provided with the first air inlet. Through being equipped with first air inlet portion on the crosspiece body, first air inlet portion is located one side that the crosspiece body is close to the air inlet subassembly, and the air is equipped with the inlet port through first air inlet portion and gets into the inside installation cavity of dish washer to get into the holding intracavity of dish washer through the second air intake, further, first crosspiece subassembly sets up in the top of curb plate subassembly, and crosspiece body and first air inlet portion are located different sides with the air inlet subassembly, can increase the area of breathing in and the efficiency of breathing in of air inlet subassembly effectively.

In one embodiment, the first air inlet is located at an end of the first rail assembly near the air inlet assembly.

In one embodiment, the rail assembly further includes a second rail assembly disposed on the side plate assembly, the second rail assembly disposed opposite the first rail assembly. Through setting up first crosspiece subassembly and second crosspiece subassembly, form the supporting role between the curb plate subassembly to relative setting, carry the installation steadiness of dish washer outside casing subassembly, first air intake can set up at first crosspiece subassembly or second crosspiece subassembly, sets up and has better efficiency of induced drafting in the second air intake department that is close to the air inlet subassembly.

In one embodiment, the side plate assembly includes a left side plate and a right side plate, the left side plate and the right side plate are located on opposite sides of the liner assembly, two ends of the first crosspiece assembly are respectively connected with the left side plate and the right side plate, and one of the left side plate and the right side plate and the liner assembly form the mounting cavity therebetween. Through the curb plate respectively in the left and right sides of inner bag subassembly, left side board and right side board play the guard action to the inner bag subassembly, and first crosspiece subassembly and second crosspiece subassembly set up between left side board and right side board, leave the installation cavity between left side board or right side board and the inner bag subassembly and be used for installing the air inlet subassembly.

In one embodiment, the inner container assembly forms the accommodating cavity, a protruding portion is formed on the inner container assembly, and the second air inlet is located at a transition position of the protruding portion and the side wall of the inner container assembly. Through being located the bellying of inner bag subassembly and its lateral wall transition department with first air intake, the bellying of inner bag subassembly forms the transition convex surface rather than the lateral wall, thereby first air intake and the relative setting of transition convex surface, thereby make it form the space difference increase area that admits air, further improve the efficiency and the air input of admitting air.

In one embodiment, the inner container assembly is provided with a through hole, the through hole is matched with the air inlet assembly, and the air inlet assembly and the through hole are communicated with the accommodating cavity. Through be equipped with the through-hole on the side that inner bag subassembly and air inlet subassembly are adjacent, this through-hole is used for with the air outlet looks adaptation of air inlet subassembly for in the air can carry the air into the holding chamber of dish washer behind the air inlet subassembly, dry the kitchen utensils and appliances that hold the intracavity.

In one embodiment, the air inlet assembly comprises a second air inlet portion, an air inlet channel assembly and an air outlet portion, the second air inlet portion is arranged at one end of the air inlet channel assembly, the air outlet portion is arranged at one end, far away from the second air inlet portion, of the air inlet channel assembly, the second air inlet is arranged on the second air inlet portion, the air outlet is arranged on the air outlet portion, the air inlet channel assembly is provided with an air inlet channel, and the second air inlet channel is communicated with the air outlet. Through being equipped with second air inlet portion on the air inlet subassembly, second air inlet portion sets up with first air intake is adjacent, when the dry work of dish washer starts, forms the negative pressure on the second air inlet portion for in the external air can get into second air inlet portion through the first air intake on the first crosspiece subassembly, second air inlet portion is located the transition convex surface of inner bag subassembly, thereby makes it form the space difference increase area of admitting air. The heating component is arranged on the air inlet channel component, and can be PTC and other materials with heating functions, and the air outlet part is arranged, so that the air heated by the heating component can enter the accommodating cavity to dry tableware in the accommodating cavity.

In one embodiment, the second air inlet portion includes an air inlet portion housing and a fan assembly, the air inlet portion housing is provided with the second air inlet, the fan assembly is disposed on the air inlet portion housing, and the fan assembly is disposed adjacent to the second air inlet. Through being provided with the fan subassembly in adjacent second air intake department, fan subassembly work makes the interior negative pressure that forms of air inlet portion, makes between second air intake and the first air intake form pressure differential, and further, utilizes the space difference of inner bag subassembly side die mould to increase the area of breathing in, is equipped with foretell first air intake on last back crosspiece subassembly simultaneously for the area of breathing in and the efficiency of breathing in of lower fan subassembly have been improved in the condition that the curb plate subassembly need not the trompil.

In one embodiment, the air inlet assembly further comprises an ion assembly, wherein the ion assembly is arranged on the air inlet assembly, and the ion assembly is positioned in the mounting cavity. Through being equipped with ion subassembly on the air inlet subassembly, specifically, be equipped with plasma generator on the ion subassembly, at the fan subassembly during operation of air inlet subassembly, dish washer is dried, air-dried tableware work, the intracavity that holds of washing dishes and tableware forms the circulating air flow, at this moment, ion subassembly also starts work, its plasma generator produces positive ion and negative ion and releases to holding in the circulating air flow in chamber, the positive ion that its during operation produced and negative ion produce huge energy release in the twinkling of an eye that carries out positive negative charge neutralization in the air, thereby lead to the change of its surrounding bacterial structure or the conversion of energy, thereby cause virus, bacterium death, realize carrying out continuous disinfection, the bactericidal effect to dish washer cavity and tableware.

A second aspect of the present application discloses a dishwasher, comprising: the air inlet structure of the dish washer; the spraying system is arranged on the shell assembly and/or the liner assembly and is communicated with the accommodating cavity; the bracket assembly is arranged on the liner assembly, is positioned in the accommodating cavity and is used for accommodating bowls.

The second aspect of the application discloses a dish washer, is used for holding the clean tableware of waiting through being equipped with the bracket component on the dish washer, is equipped with spraying system, and spraying system is used for wasing the kitchen utensils and appliances in the dish washer, after the tableware washs, starts air inlet system and carries out drying and disinfection to the tableware.

Drawings

FIG. 1 is a perspective view of an air intake structure of a dishwasher;

FIG. 2 is an exploded view of the air intake structure of the dishwasher;

FIG. 3 is a schematic view of a liner assembly;

FIG. 4 is an assembled schematic view of the air intake structure of the dishwasher;

FIG. 5 is a schematic illustration of the location of the air intake assembly;

FIG. 6 is a schematic view of an air intake assembly;

FIG. 7 is a schematic view of the first rail assembly.

Wherein, the correspondence between the reference numerals and the component names is:

1 a shell component, a first air inlet, a side plate component 11, a left side plate 111, a right side plate 112, a first crosspiece component 12, a crosspiece body 121, a first air inlet part 122 and a second crosspiece component 13;

2 a liner assembly 201 housing the chamber;

the air inlet assembly 3, the second air inlet 301, the air outlet 302, the second air inlet 31, the air inlet channel assembly 32 and the air outlet 33;

and 4, an ion assembly.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

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

An air intake structure of a dish washer according to some embodiments of the present utility model will be described with reference to the accompanying drawings.

Example 1

As shown in fig. 1 to 7, the present embodiment discloses an air intake structure of a dishwasher, which includes a housing assembly 1, wherein a first air intake 101 is provided on the housing assembly 1; the inner container assembly 2 is arranged on the shell assembly 1, a containing cavity 201 is formed on the inner container assembly 2, a mounting cavity is formed between the outer side wall of the inner container assembly 2 and the shell assembly 1, and the air inlet 101 is communicated with the mounting cavity; the air inlet assembly 3 is arranged on the liner assembly 2, the air inlet assembly 3 is positioned in the mounting cavity, the air inlet assembly 3 is provided with a second air inlet 301 and an air outlet 302, the second air inlet 301 is arranged opposite to the liner assembly 2, the first air inlet 101 is communicated with the second air inlet 301, and the second air inlet 301 and the air outlet 302 are communicated with the accommodating cavity 201; the heating component is arranged on the air inlet component 3 and is used for heating the gas flowing through the air inlet component 3.

The application discloses dish washer air inlet structure forms on the inner bag subassembly 2 and holds the clean operation space of chamber 201 as dish washer, inner bag subassembly 2 sets up the inboard at housing component 1, form the installation cavity between inner bag subassembly 2 and the housing component 1, this installation cavity is used for installing air inlet subassembly 3, the both ends of air inlet subassembly 3 are equipped with second air intake 301 and air outlet 302 respectively, make air inlet subassembly 3 pass through second air intake 301 and housing component 1's first air intake 301 intercommunication, the outside air of dish washer body can get into air inlet subassembly 3 inside through first air intake 301, second air intake 301 in proper order, and get into the housing cavity 201 of dish washer through air outlet 302 of air inlet subassembly 3, dry the kitchen utensils and appliances that hold in the chamber 201. Wherein, because the surface of inner bag subassembly is the irregular plane, so second air intake 301 and inner bag subassembly set up relatively, in the air inlet work start-up process, consequently form pressure differential between the two to improve air inlet efficiency and intake, further improve dish washer's drying efficiency.

As shown in fig. 1 and 2, this embodiment further defines, in addition to the features of the above-described embodiment: the shell assembly 1 comprises a side plate assembly 11 and a first crosspiece assembly 12, the first crosspiece assembly 12 is arranged on the side plate assembly 11, a first air inlet 101 is formed in the first crosspiece assembly 12, the side plate assembly 11 is arranged on the outer side of the liner assembly 2, and an installation cavity is formed between the side plate assembly 11 and the liner assembly 2. Through being equipped with first air intake 101 on first crosspiece subassembly 12, and first air intake 101 and the adjacent setting of second air intake 301, first crosspiece subassembly 12 is located the difference side with curb plate subassembly 11, and current dish washer generally sets up first air intake 101 on curb plate subassembly 11, and first air intake 101 sets up with the second air intake 301 of air inlet subassembly 3 relatively, its air inlet passageway is narrow, the noise that causes is big, the air inlet structure of this application improves first air intake 101 setting position, can further increase air inlet passageway, improvement air inlet efficiency and intake.

As shown in fig. 1, 2 and 7, this embodiment further defines, in addition to the features of the above-described embodiment: the first crosspiece assembly 12 includes a crosspiece body 121 and a first air inlet portion 122, the crosspiece body 121 is disposed on the side plate assembly 11, the first air inlet portion 122 is disposed on the crosspiece body 121, and the first air inlet portion 122 is provided with the first air inlet 101. Through being equipped with first air inlet portion 122 on crosspiece body 121, first air inlet portion 122 is located one side that crosspiece body 121 is close to air inlet assembly 3, and the air is equipped with the installation cavity that the inlet port got into the dish washer inside through first air inlet portion 122 to in the holding chamber 201 of dish washer is got into through second air intake 301, further, first crosspiece subassembly 12 sets up in the top of curb plate subassembly 11, and crosspiece body 121 and first air inlet portion 122 are located different sides with air inlet assembly 3, can increase air inlet assembly's area of breathing in and air suction efficiency effectively.

As shown in fig. 7, this embodiment further defines, in addition to the features of the above-described embodiment: the first air inlet 101 is located at one end of the first rail assembly 12 near the air inlet assembly 3.

As shown in fig. 2 and 3, this embodiment further defines, in addition to the features of the above-described embodiment: and a second rail assembly 13, the second rail assembly 13 is arranged on the side plate assembly 11, and the second rail assembly 13 is arranged opposite to the first rail assembly 12. By providing the first rail assembly 12 and the second rail assembly 13, a supporting effect is formed between the opposite side plate assemblies 11, so that the installation stability of the outer housing assembly 1 of the dishwasher is improved, the first air inlet 101 can be formed in the first rail assembly 12 or the second rail assembly 13, and the second air inlet 301 close to the air inlet assembly 3 has better air suction efficiency.

In addition to the features of the above embodiment, this embodiment further defines as shown in fig. 2: the side plate assembly 11 includes a left side plate 111 and a right side plate 112, the left side plate 111 and the right side plate 112 are located on opposite sides of the liner assembly 2, two ends of the first crosspiece assembly 12 are respectively connected with the left side plate 111 and the right side plate 112, and a mounting cavity is formed between one of the left side plate 111 and the right side plate 112 and the liner assembly 2. Through the left and right sides of inner bag subassembly 2 respectively curb plate, left side board 111 and right side board 112 play the guard action to inner bag subassembly 2, and first crosspiece subassembly 12 and second crosspiece subassembly 13 set up between left side board 111 and right side board 112, leave the installation chamber between left side board 111 or right side board 112 and inner bag subassembly 2 and be used for installing air inlet subassembly 3.

As shown in fig. 4 and 5, this embodiment further defines, in addition to the features of the above-described embodiment: the inner container assembly 2 forms a containing cavity, a protruding part is formed on the inner container assembly 2, and the second air inlet 301 is located at the transition part of the protruding part and the side wall of the inner container assembly 2. Through being located the bellying of inner bag subassembly 2 and its lateral wall transition department with first air intake 301, the bellying of inner bag subassembly 2 forms the transition convex surface rather than the lateral wall, thereby first air intake 301 and the relative setting of transition convex surface, thereby make it form the space difference increase air inlet area, further improve the efficiency and the air input of admitting air.

As shown in fig. 5 and 6, this embodiment further defines, in addition to the features of the above-described embodiment: the liner component 2 is provided with a through hole, the through hole is matched with the air inlet component 3, and the air inlet component 3 and the through hole are communicated with the accommodating cavity 201. Through being equipped with the through-hole on the side that inner bag subassembly 2 and air inlet subassembly 3 are adjacent, this through-hole is used for with air inlet subassembly 3's air outlet 302 looks adaptation for in the air can carry the air into the holding chamber 201 of dish washer behind the air inlet subassembly 3, dry the kitchen utensils and appliances in holding chamber 201.

As shown in fig. 6, this embodiment further defines, in addition to the features of the above-described embodiment: the air inlet assembly 3 comprises a second air inlet portion 31, an air inlet channel assembly 32 and an air outlet portion 33, the second air inlet portion 31 is arranged at one end of the air inlet channel assembly 32, the air outlet portion 33 is arranged at one end, far away from the second air inlet portion 31, of the air inlet channel assembly 32, the second air inlet 301 is arranged on the second air inlet portion 31, the air outlet 302 is arranged on the air outlet portion 33, the air inlet channel assembly 32 is provided with an air inlet channel, and the second air inlet 301 and the air inlet channel are communicated with the air outlet 302. Through being equipped with second air inlet portion 31 on air inlet subassembly 3, second air inlet portion 31 sets up with first air intake 101 is adjacent, when the dry work of dish washer starts, forms the negative pressure in second air inlet portion 31 for outside air can get into second air inlet portion 31 through first air intake 101 on the first crosspiece subassembly 12, and second air inlet portion 31 is located the transition convex surface of inner bag subassembly 2, thereby makes it form the space difference increase area of admitting air. The air inlet channel component 32 is provided with a heating component, which can be a PTC material with a heating function, and the air outlet part 33 is provided, so that the air heated by the heating component can enter the accommodating cavity 201 to dry the tableware in the accommodating cavity 201.

As shown in fig. 5 and 6, this embodiment further defines, in addition to the features of the above-described embodiment: the second air inlet portion 31 includes an air inlet portion housing and a fan assembly, the air inlet portion housing is provided with a second air inlet 301, the fan assembly is disposed on the air inlet portion housing, and the fan assembly is disposed adjacent to the second air inlet 301. Through being provided with the fan subassembly in adjacent second air intake 301 department, fan subassembly work makes the interior negative pressure that forms of air inlet portion, makes between second air intake 301 and the first air intake 101 form pressure differential, and further, utilizes the space difference of inner bag subassembly side die mould to increase the area of breathing in, is equipped with above-mentioned first air intake 101 on the upper and lower crosspiece subassembly simultaneously for the area of breathing in and the efficiency of breathing in of lower fan subassembly have been improved in the condition that curb plate subassembly 11 need not the trompil.

As shown in fig. 6, this embodiment further defines, in addition to the features of the above-described embodiment: and the ion assembly 4 is arranged on the air inlet assembly 3, and the ion assembly 4 is positioned in the mounting cavity. Through being equipped with ion subassembly on air inlet subassembly 3, specifically, be equipped with plasma generator on the ion subassembly 4, at the fan subassembly during operation of air inlet subassembly, dish washer is dried, air-dried tableware work, the interior circulating air flow that forms of holding chamber 201 of dish washer and dish washer, at this moment, ion subassembly 4 also starts the work, its plasma generator produces positive ion and negative ion and releases to holding chamber 201's circulating air flow, the positive ion that its during operation produced produces huge energy release with the negative ion in the moment that the positive and negative charges were neutralized in the air, thereby lead to the change of its surrounding bacterial structure or the conversion of energy, thereby cause virus, the bacterium death, realize carrying out continuous disinfection, the bactericidal effect to dish washer cavity and tableware.

Example 2

The embodiment discloses a dish washer air inlet structure, which comprises the dish washer air inlet structure; the spraying system is arranged on the shell assembly 1 and/or the liner assembly 2 and is communicated with the accommodating cavity 201; a bracket assembly is arranged on the liner assembly 2, the bracket assembly is positioned in the accommodating cavity 201, and the bracket assembly is used for accommodating bowls.

The second aspect of the application discloses a dish washer, is used for holding the clean tableware of waiting through being equipped with the bracket component on the dish washer, is equipped with spraying system, and spraying system is used for wasing the kitchen utensils and appliances in the dish washer, after the tableware washs, starts air inlet system and carries out drying and disinfection to the tableware.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An air intake structure of a dishwasher, comprising:

the device comprises a shell assembly (1), wherein a first air inlet (101) is formed in the shell assembly (1);

the inner container assembly (2), the inner container assembly (2) is arranged on the shell assembly (1), a containing cavity (201) is formed on the inner container assembly (2), an installation cavity is formed between the outer side wall of the inner container assembly (2) and the shell assembly (1), and the air inlet (101) is communicated with the installation cavity;

the air inlet assembly (3), the air inlet assembly (3) is arranged on the liner assembly (2), the air inlet assembly (3) is positioned in the installation cavity, the air inlet assembly (3) is provided with a second air inlet (301) and an air outlet (302), the second air inlet (301) is arranged opposite to the liner assembly (2), the first air inlet (101) is communicated with the second air inlet (301), and the second air inlet (301) and the air outlet (302) are communicated with the accommodating cavity (201);

the heating component is arranged on the air inlet component (3) and is used for heating gas flowing through the air inlet component (3).

2. The dishwasher air intake structure according to claim 1, characterized in that the housing assembly (1) comprises a side plate assembly (11) and a first crosspiece assembly (12), the first crosspiece assembly (12) is arranged on the side plate assembly (11), the first crosspiece assembly (12) is provided with the first air inlet (101), the side plate assembly (11) is arranged outside the liner assembly (2), and the mounting cavity is formed between the side plate assembly (11) and the liner assembly (2).

3. The dishwasher air intake structure of claim 2, wherein,

the first crosspiece assembly (12) comprises a crosspiece body (121) and a first air inlet portion (122), the crosspiece body (121) is arranged on the side plate assembly (11), the first air inlet portion (122) is arranged on the crosspiece body (121), and the first air inlet portion (122) is provided with the first air inlet (101); and/or

The first air inlet (101) is positioned at one end of the first crosspiece assembly (12) close to the air inlet assembly (3).

4. The dishwasher air intake structure of claim 2, wherein,

the bicycle comprises a side plate assembly (11), a first crosspiece assembly (12) and a second crosspiece assembly (13), wherein the second crosspiece assembly (13) is arranged on the side plate assembly (11), and the second crosspiece assembly (13) is arranged opposite to the first crosspiece assembly (12); and/or

The side plate assembly (11) comprises a left side plate (111) and a right side plate (112), the left side plate (111) and the right side plate (112) are positioned on two opposite sides of the liner assembly (2), two ends of the first crosspiece assembly (12) are respectively connected with the left side plate (111) and the right side plate (112), and one of the left side plate (111) and the right side plate (112) and the liner assembly (2) form a mounting cavity therebetween.

5. The air inlet structure of the dish washer according to claim 1, wherein the inner container assembly (2) forms the accommodating cavity, a protruding portion is formed on the inner container assembly (2), and the second air inlet (301) is located at a transition position of the protruding portion and the side wall of the inner container assembly (2).

6. The air intake structure of a dishwasher according to claim 5, characterized in that the inner container assembly (2) is provided with a through hole, the through hole is matched with the air intake assembly (3), and the air intake assembly (3) and the through hole are communicated with the accommodating cavity (201).

7. The dishwasher air intake structure according to claim 1, characterized in that the air intake assembly (3) comprises a second air intake portion (31), an air intake channel assembly (32) and an air outlet portion (33), the second air intake portion (31) is arranged at one end of the air intake channel assembly (32), the air outlet portion (33) is arranged at one end of the air intake channel assembly (32) away from the second air intake portion (31), the second air intake (301) is arranged on the second air intake portion (31), the air outlet (302) is arranged on the air outlet portion (33), the air intake channel assembly (32) is provided with an air intake channel, and the second air intake (301) and the air intake channel are communicated with the air outlet (302).

8. The dishwasher air intake structure of claim 7, characterized in that the second air intake (31) comprises an air intake housing provided with the second air intake (301) and a fan assembly provided on the air intake housing, the fan assembly being provided adjacent to the second air intake (301).

9. The dishwasher air intake structure of claim 1, further comprising an ion assembly (4), the ion assembly (4) being disposed on the air intake assembly (3), the ion assembly (4) being located within the mounting cavity.

10. A dishwasher, comprising:

an air intake structure of a dishwasher according to any one of claims 1 to 9;

the spraying system is arranged on the shell assembly (1) and/or the liner assembly (2) and is communicated with the accommodating cavity (201);

and the bracket assembly is arranged on the liner assembly (2), is positioned in the accommodating cavity (201) and is used for accommodating bowls.

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