CN218128179U - Air fryer - Google Patents

Abstract

The present disclosure provides an air fryer comprising an outer pot, a fry basket, a hot air assembly, and a noise reduction assembly, the outer pot having an interior cavity; the fry basket is disposed in the internal cavity; the hot air assembly is arranged above the frying basket and is used for blowing hot air into the frying basket; the amortization subassembly set up in the top of hot-blast subassembly, and the amortization subassembly includes the upper muffler board of superpose from top to bottom and muffler board down, and the upper muffler board with enclose between the muffler board down and close and form the amortization chamber, the amortization chamber is followed the circumference of air fryer is cyclic annular setting, the radial inner edge in amortization chamber is provided with the sound wave import, sets up the amortization subassembly through the top at hot-blast subassembly, can absorb the noise in the air fryer to the realization is fallen the purpose of making an uproar.

Description

Air fryer

Technical Field

The utility model belongs to the cooking utensil field especially relates to an air fryer.

Background

The current air is fried pot on the market mainly is that the motor drives the rotatory air current that produces of flabellum and carries out hot-blast heating, and the motor rotates can the noise with the flow of air current, when the air is fried pot when long-time work, and relatively high noise can give the relatively poor experience of user.

SUMMERY OF THE UTILITY MODEL

It is a primary object of the present disclosure to provide an air fryer that reduces noise during use of the air fryer.

Aiming at the above purpose, the present disclosure provides the following technical solutions:

in one aspect of the present disclosure, an air fryer is provided comprising an outer pot having an interior cavity, a fry basket, a hot air assembly, and a sound attenuation assembly; the fry basket is disposed in the internal cavity; the hot air assembly is arranged above the frying basket and used for blowing hot air into the frying basket; the amortization subassembly set up in the top of hot-blast subassembly, and the amortization subassembly includes the upper acoustic panel of superpose from top to bottom and lower acoustic panel, and the upper acoustic panel with enclose between the acoustic panel down and close and form the amortization chamber, the amortization chamber is followed the circumference of air fryer is cyclic annular setting, the radial inner edge in amortization chamber is provided with the sound wave import.

According to the air fryer, the noise reduction assembly is arranged above the hot air assembly, so that noise in the air fryer can be absorbed, and the purpose of noise reduction is achieved.

The utility model discloses an exemplary embodiment, the upper acoustic panel includes annular upper plate body and follows the radial outer fringe downwardly extending's of upper plate body supporting part, lower acoustic panel includes annular lower plate body and arranges in the extension of the radial outer fringe of lower plate body, the supporting part supports on the extension, just the upper plate body with lower plate body interval sets up, the amortization chamber set up in the upper plate body with between the lower plate body.

In this way, by providing the support portion on the outer edge in the radial direction of the upper plate body, the extension portion can be stably supported by the support portion.

Optionally, the upper plate body and the lower plate body are coaxially disposed, the extension portion is disposed axially below the lower plate body, a connecting plate is connected between a radial inner edge of the extension portion and a radial outer edge of the lower plate body, the support portion extends in an axial direction of the air fryer, and the support portion is disposed radially outside the connecting plate.

Specifically, the upper sound absorbing plate further comprises an upper air guide part, the upper air guide part is bent and extends downwards from the radial inner edge of the upper plate body, the bottom end edge of the upper air guide part and the lower sound absorbing plate are arranged at intervals, and the sound wave inlet is arranged between the bottom end edge of the upper air guide part and the lower sound absorbing plate.

Therefore, the upper air guide part is arranged on the radial inner edge of the upper plate body, so that the air entering through the air inlet can be guided, and the air flows more smoothly.

Further, the lower sound-absorbing plate further comprises a lower air guide part, the lower air guide part is bent and extended downwards from the radial inner edge of the lower plate body, the bottom end edge of the upper air guide part is bent towards the lower air guide part, and the sound wave inlet is arranged between the bottom end edge of the upper air guide part and the lower air guide part.

Optionally, the diameter of the bottom end edge of the upper air guiding part is smaller than the diameter of the bottom end edge of the lower air guiding part. Therefore, the gas above the upper silencing plate can enter the negative pressure area generated by the rotation of the circulating fan blades more smoothly, and the gas flows more smoothly.

In an exemplary embodiment of the present disclosure, a cross section of the upper air guiding portion is an arc surface, and the cross section of the upper air guiding portion is not greater than 1/4 of an arc. The cross section of the lower air guide part is an arc surface, and the cross section of the lower air guide part is not more than 1/4 of an arc.

Optionally, a distance d between the bottom end edge of the upper air guiding part and the lower air guiding part satisfies that d is more than or equal to 0.5mm and less than or equal to 2.6mm.

In another exemplary embodiment of the present disclosure, the silencing chamber includes at least two silencing areas spaced apart along a circumferential direction of the air fryer, each of the silencing areas having a silencing unit disposed therein, and volumes of the silencing units in different silencing areas are different. So, the amortization unit volume difference can be used for eliminating the noise without the frequency, through setting up the amortization unit for having different volumes, can fall the noise of multiple frequency and make an uproar to improve the noise reduction effect.

Optionally, adjacent said sound attenuating regions are separated by a partition panel secured to and extending downwardly from said upper sound attenuating panel to abut against said lower sound attenuating panel, said partition panel extending radially of said air fryer.

Specifically, at least one be provided with the intracavity baffle in the noise reduction region, the intracavity baffle is fixed in the upper muffler board and follows upper muffler board downwardly extending, just the intracavity baffle with lower muffler board interval sets up.

Further, the partition plates in the cavity comprise at least two radial partition plates extending along the radial direction of the air fryer, and two radial ends of each radial partition plate extend to the supporting part and the upper air guide part.

In another exemplary embodiment of the present disclosure, the partition plate in the cavity includes a circumferential partition plate extending along a circumferential direction of the air fryer, two circumferential ends of the circumferential partition plate are respectively connected to the radial partition plates, and the circumferential partition plate is disposed between the supporting portion and the upper air guiding portion.

Drawings

The above and/or other objects and advantages of the present disclosure will become more apparent from the following description of the embodiments taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a longitudinal cross-sectional view of an air fryer provided in accordance with an exemplary embodiment of the present disclosure.

Fig. 2 is a longitudinal sectional view of the muffler assembly of fig. 1.

Fig. 3 is an exploded view of the noise dampening assembly of fig. 1.

Fig. 4 is a bottom view of the acoustical panel of fig. 3.

Fig. 5 is a schematic view of the flow of sound attenuating assembly and sound waves of fig. 1.

Description of reference numerals:

1. an outer pot; 2. A frying basket;

3. food material supporting plates; 4. A heating body;

5. circulating fan blades; 6. A heat dissipation fan blade;

7. a drive motor; 8. An upper acoustic panel;

9. a lower acoustic panel; 81. An upper plate body;

82. an upper air guiding part; 83. An upper through hole;

84. a first sound deadening region; 85. A second sound deadening region;

86. a third sound deadening region; 87. A cavity separating plate;

88. an intracavity partition plate; 89. A support portion;

91. a lower plate body; 92. A lower air guiding part;

93. a lower through hole; 94. An extension part;

95. a connecting plate.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. However, it should not be understood that the aspects of the present disclosure are limited to the embodiments set forth herein. The same reference numerals in the drawings denote the same or similar structures, and thus a detailed description thereof will be omitted.

Referring to FIG. 1, the present disclosure provides an air fryer, such as, but not limited to, a drawer-type air fryer or a clamshell-type air fryer, which is exemplified by the present disclosure for convenience of description.

The air is fried the pot and is included outer pot 1, sets up in the fried basket 2 of 1 inner chamber of outer pot, can be provided with in fried basket 2 and eat material backup pad 3 in order to be used for supporting the edible material of treating the culinary art. As an example, a plurality of oil leakage holes are formed in the food supporting plate 3, so that grease overflowing from the food during cooking leaks downwards, and the cooking taste of the food is improved.

In order to heat food materials for cooking, the air fryer further comprises a hot air assembly, the hot air assembly comprises a driving motor 7, a circulating fan blade 5 and a heating body 4, wherein the circulating fan blade 5 is arranged above the heating body 4, and an output shaft of the driving motor 7 is connected to the circulating fan blade 5 so as to drive the circulating fan blade 5 to rotate. Specifically, the heating body 4 is used for heating the gas in the cooking cavity to form hot gas, and the circulating fan blade 5 blows the hot gas to the frying basket 2 for cooking food. As an example, the heating body 4 may be an annular heating tube, but is not limited thereto.

As an example, the air inlet and the air outlet of the air fryer may be disposed above the circulation fan 5, such as, but not limited to, the air inlet disposed on the top of the air fryer, and the air outlet of the air fryer disposed on the sidewall of the air fryer and below the air inlet, but not limited thereto.

Furthermore, the air fryer also comprises heat dissipation fan blades 6, the heat dissipation fan blades 6 are arranged above the circulation fan blades 5, and the heat dissipation fan blades 6 are connected to an output shaft of the driving motor 7, namely the circulation fan blades 5 and the heat dissipation fan blades 6 are driven by the driving motor 7 at the same time.

In order to improve the energy utilization rate, the air fryer comprises an air duct plate, the air duct plate is arranged above the circulating fan blades 5 and is approximately annular, the radial outer edge of the air duct plate is connected to the side wall of the air fryer, and a through hole is formed in the radial inner edge of the air duct plate so that air can conveniently flow downwards through the through hole after entering from the air inlet.

The air fryer can generate noise due to vibration of components or food frying during use, and the air fryer provided by the disclosure comprises a noise reduction assembly for eliminating the noise in the air fryer so as to improve the user experience of the air fryer.

Referring to fig. 2 and 3, in particular, the noise reduction assembly includes an upper noise reduction plate 8 and a lower noise reduction plate 9, a noise reduction cavity is provided between the upper noise reduction plate 8 and the lower noise reduction plate 9, the upper noise reduction plate 8 is substantially annular, an upper through hole 83 is provided in the middle of the upper noise reduction plate 8, a lower through hole 93 is provided in the middle of the lower noise reduction plate 9 corresponding to the upper through hole 83, and the upper through hole 83 and the lower through hole 93 are aligned to facilitate the output shaft of the driving motor 7 to pass through. As an example, the driving motor 7 is disposed above the upper sound-absorbing plate 8, and the heat-dissipating fan 6 is disposed below the lower sound-absorbing plate 9, but not limited thereto.

The upper sound absorbing plate 8 comprises an upper plate body 81 and a supporting part 89, the upper plate body 81 is approximately annular, the supporting part 89 extends downwards along the axial direction of the air fryer from the radial outer edge of the upper sound absorbing plate 8, the bottom end of the supporting part 89 is supported on the lower sound absorbing plate 9, so that the upper plate body 81 and the lower sound absorbing plate 9 are arranged at intervals, and a sound absorbing cavity is formed below the upper plate body 81 to reduce or even eliminate the noise in the air fryer.

As an example, the upper plate body 81 is a substantially circular plate, and the upper plate body 81 is disposed substantially horizontally.

The upper noise reduction plate 8 further comprises an upper air guiding portion 82, the upper air guiding portion 82 extends from the radial inner edge of the upper plate body 81 to the lower noise reduction plate 9 in a bending mode, the upper air guiding portion 82 and the upper plate body 81 are in smooth transition, the bottom end of the upper air guiding portion 82 and the lower noise reduction plate 9 are arranged at intervals, a gap is formed between the bottom end of the upper air guiding portion 82 and the lower noise reduction plate 9, and the gap forms a sound wave inlet of a noise reduction cavity.

As an example, the upper air guiding portion 82 is a circular arc surface, and the cross section of the upper air guiding portion 82 is not greater than 1/4 circular arc. Alternatively, the distance d between the bottom end edge of the upper air guiding portion 82 and the lower sound-deadening plate 9 satisfies: d is any value of 0.5mm-2.6mm, but not limited thereto. Through tests, the d value is 0.5mm-2.6mm, the main noise frequency is 500 Hz-9000 Hz, the noise reduction can be realized by at least more than 1.3dB, the noise elimination frequency band is wide, and the noise reduction is obvious. As an example, the cross section of the upper wind guiding part 82 is 1/4 circular arc.

When the driving motor 7 is started, the circulating fan blades 5 rotate, generated noise can enter the silencing cavity from the sound wave inlet, and as shown by a dotted arrow in fig. 5, sound waves are reflected in the silencing cavity for multiple times, so that the sound waves are mutually counteracted or sound wave energy is absorbed by a component, and the purpose of reducing noise is achieved. In addition, FIG. 5 also shows the flow direction of the gas, as shown by the solid arrows, the air inlet is disposed at the top of the air fryer in FIG. 5, and the air outlet is disposed on the left side wall of the air fryer, but not limited thereto.

According to the helmholtz resonance silencing principle:

f ₀ is the frequency of the sound wave, d is the bottom edge of the upper air guiding part 82 and the lower sound-absorbing plate 9The distance between the two, namely the upper and lower width sizes of the sound wave inlet; s is the sectional area of the sound wave inlet; l is the depth of the sound wave inlet, which can be approximately equal to the arc length of the upper air guiding part 82; v is the volume in the silencing cavity, and the theoretical optimal value range can be reached according to the assembling relation between the silencing plate and the air duct plate.

When the upper sound-deadening plate 8 is assembled on the lower sound-deadening plate 9, the distance d between the bottom end edge of the upper air guiding part 82 and the lower sound-deadening plate 9, the sectional area s of the sound wave inlet and the depth l of the sound wave inlet become constant values, and the volume V in the sound-deadening cavity can be adjusted to enable the sound-deadening frequency f to be constant ₀ Covering a broad band of dominant noise.

Optionally, the muffling chamber comprises at least two muffling areas arranged at intervals along the circumferential direction of the air fryer, at least one muffling unit is arranged in each muffling area, and the volumes of the muffling units in different muffling areas are different, so that different sound wave frequencies f are achieved ₀ To reduce noise.

Referring to fig. 4, the sound deadening chamber in the present embodiment is described by taking the example including 3 sound deadening regions for the convenience of description. The 3 silencing areas are respectively a first silencing area 84, a second silencing area 85 and a third silencing area 86, and the first silencing area 84, the second silencing area 85 and the third silencing area 86 are sequentially arranged at intervals along the circumferential direction of the air fryer.

By way of example, a partition board 87 is arranged between the first sound attenuation area 84 and the second sound attenuation area 85, the partition board 87 extends substantially in the axial direction of the air fryer, the top end of the partition board 87 is fixed to the upper sound attenuation plate 8, and the bottom end of the partition board 87 abuts against the lower sound attenuation plate 9.

Each silencing region may be provided with a silencing unit, and taking the second silencing region 85 as an example, the second silencing region 85 is divided into a plurality of silencing units by a plurality of intracavity partitions 88, and different silencing units in the same silencing region are communicated with each other.

Illustratively, the chamber partition 88 extends in the axial direction of the air fryer, and the top end of the chamber partition 88 is fixed to the upper muffling plate 8, and the bottom end of the chamber partition 88 is spaced from the lower muffling plate 9.

Referring to fig. 4, the partition 88 in the cavity includes at least two radial partitions extending along the radial direction of the air fryer, and both radial ends of the radial partitions extend to the supporting portion 89 and the upper air guiding portion 82. And/or, the partition 88 in the cavity comprises a circumferential partition extending along the circumferential direction of the air fryer, the circumferential two ends of the circumferential partition are respectively connected to the radial partitions, and the circumferential partition is arranged between the supporting portion 89 and the upper air guiding portion 82.

As an example, the chamber partition 88 includes a radial partition extending in the radial direction of the air fryer and a circumferential partition extending in the circumferential direction of the air fryer, and in this embodiment, 4 radial partitions and 1 circumferential partition are provided at intervals in the second sound deadening region 85, the circumferential partition is provided in the radial middle of the upper sound deadening plate 8, and the circumferential partitions are respectively connected to the radial partitions to be formed in a lattice shape, thereby respectively dividing the second sound deadening region 85 into 8 sound deadening units. By way of example, the volumes of different sound-deadening units in the same sound-deadening region may be the same or different, and are not particularly limited.

In addition, the chamber partition 88 is not disposed in the third muffling area 86, i.e., the third muffling area 86 is a muffling unit.

In this embodiment, the silencing chamber is divided into different silencing areas, and the silencing units in the different silencing areas are different in ease, so that noises with different frequencies can be absorbed, and the silencing chamber can absorb noises with different frequencies.

By way of example, the lower sound-absorbing plate 9 provided by the present disclosure is an air duct plate in the air fryer, so as to form the sound-absorbing cavity by means of the air duct plate in the original air fryer, and the original air fryer is modified, so as to reduce the noise of the air fryer, but not limited thereto. Besides, the lower sound-absorbing plate 9 can be a newly added structure in the air fryer, but not limited to the structure.

The lower sound-deadening plate 9 includes a lower plate body 91 and an extension portion 94 provided on a radially outer edge of the lower plate body 91, and a step is provided between the lower plate body 91 and the extension portion 94.

Specifically, the lower plate body 91 is disposed below the upper plate body 81 in parallel and at an interval, and the lower plate body 91 is substantially annular. The extending portion 94 is provided on the outer edge of the lower plate body 91 in the radial direction, the extending portion 94 is located axially below the lower plate body 91, and a connecting plate 95 is provided between the inner edge of the extending portion 94 in the radial direction and the outer edge of the lower plate body 91 in the radial direction. The bottom end of the supporting portion 89 is supported on the extending portion 94, and the supporting portion 89 is disposed on the radial outer side of the connecting plate 95. Optionally, the connecting plate 95 is substantially cylindrical, and the connecting plate 95 and the lower plate body 91 are in arc transition, but not limited thereto.

For example, the extension 94 is substantially annular, and the radially outer edge of the extension 94 is secured to the sidewall of the air fryer, but not limited thereto.

Further, the lower sound-deadening plate 9 further includes a lower air-guiding portion 92, and the lower air-guiding portion 92 extends while being bent downward from a radially inner edge of the lower plate body 91. The distance between the bottom end edge of the upper air guiding part 82 and the lower air guiding part 92 is any value of 0.5-2.6 mm.

For example, the cross section of the lower air guiding portion 92 is circular arc, but not limited thereto. Optionally, the cross section of the lower air guiding part 92 is a 1/4 circular arc, but not limited thereto. Optionally, the diameter D2 of the bottom edge of the lower air guiding portion 92 is greater than the diameter D1 of the bottom edge of the upper air guiding portion 82, so that the air above the upper silencing plate 8 can enter the negative pressure area generated by the rotation of the circulating fan blade 5 more smoothly, and the air flows more smoothly, but not limited thereto.

In this embodiment, the upper acoustic panel 8 and the lower acoustic panel 9 enclose to form an acoustic cavity, and the sound wave inlet is located on the radial inner side of the upper acoustic panel 8. The amortization intracavity is provided with the amortization unit, and the amortization unit volume difference can be used for eliminating the noise of frequency not, through setting up the amortization unit into having different volumes, can fall the noise of multiple frequency and make an uproar to improve noise reduction.

By way of example, the upper and lower acoustic panels 8, 9 may be connected by fasteners to improve the stability of the connection between the components of the air fryer. Further, the upper plate body 81 and the lower plate body 91 may be coaxially disposed, but not limited thereto.

In the description of the present disclosure, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, merely for convenience in describing the present disclosure and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore, should not be construed as limiting the present disclosure.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present disclosure, "a plurality" means two or more unless otherwise specified.

In the description of the present disclosure, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection, a mechanical connection, an electrical connection, or a communication connection; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meaning of the above terms in the present disclosure can be understood in specific instances by those of ordinary skill in the art.

The described features, structures, or characteristics of the disclosure may be combined in any suitable manner in one or more embodiments. In the above description, numerous specific details are provided to give a thorough understanding of embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the subject matter of the present disclosure can be practiced without one or more of the specific details, or with other methods, components, materials, and so forth. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the disclosure.

Claims (13)

1. An air fryer, comprising:

an outer pan (1) having an inner cavity;

a fry basket (2) disposed in the internal cavity;

the hot air assembly is arranged above the frying basket (2) and is used for blowing hot air into the frying basket (2);

the amortization subassembly, set up in the top of hot-blast subassembly, and the amortization subassembly includes upper and lower superpose upper and lower abate board (8) and lower abate board (9), and upper abate board (8) with enclose between lower abate board (9) and close and form the amortization chamber, the amortization chamber is followed the circumference of air fryer is cyclic annular setting, the radial inner edge in amortization chamber is provided with the sound wave import.

2. An air fryer according to claim 1, wherein the upper sound-absorbing plate (8) includes an annular upper plate body (81) and a support portion (89) extending downward from a radially outer edge of the upper plate body (81), the lower sound-absorbing plate (9) includes an annular lower plate body (91) and an extension portion (94) disposed at a radially outer edge of the lower plate body (91), the support portion (89) is supported on the extension portion (94), and the upper plate body (81) and the lower plate body (91) are disposed at a distance, and the sound-absorbing chamber is disposed between the upper plate body (81) and the lower plate body (91).

3. The air fryer according to claim 2, wherein the upper plate body (81) and the lower plate body (91) are coaxially disposed, the extension portion (94) is disposed axially below the lower plate body (91), a connecting plate (95) is connected between a radially inner edge of the extension portion (94) and a radially outer edge of the lower plate body (91), the support portion (89) extends in the axial direction of the air fryer, and the support portion (89) is disposed radially outside the connecting plate (95).

4. The air fryer according to claim 2, wherein the upper sound absorbing plate (8) further comprises an upper air guiding portion (82), the upper air guiding portion (82) extends in a curved manner from a radially inner edge of the upper plate body (81), a bottom end edge of the upper air guiding portion (82) is spaced apart from the lower sound absorbing plate (9), and the sound wave inlet is provided between the bottom end edge of the upper air guiding portion (82) and the lower sound absorbing plate (9).

5. The air fryer according to claim 4, wherein the lower sound-deadening plate (9) further comprises a lower air-guiding portion (92), the lower air-guiding portion (92) extends while being bent downward from a radially inner edge of the lower plate body (91), a bottom end edge of the upper air-guiding portion (82) is bent toward the lower air-guiding portion (92), and the sound wave inlet is provided between the bottom end edge of the upper air-guiding portion (82) and the lower air-guiding portion (92).

6. The air fryer according to claim 5, wherein the diameter of the bottom edge of the upper air guide portion (82) is smaller than the diameter of the bottom edge of the lower air guide portion (92); and/or the presence of a gas in the atmosphere,

the cross section of the upper air guiding part (82) is an arc surface, and the cross section of the upper air guiding part (82) is not more than 1/4 of an arc; and/or the presence of a gas in the gas,

the cross section of the lower air guiding part (92) is an arc surface, and the cross section of the lower air guiding part (92) is not more than 1/4 of an arc.

7. The air fryer according to claim 5, wherein a distance d between a bottom end edge of the upper air guide portion (82) and the lower air guide portion (92) satisfies 0.5 mm. Ltoreq. D.ltoreq.2.6 mm.

8. The air fryer according to claim 4, wherein said muffling chamber comprises at least two muffling areas spaced circumferentially around said air fryer, each of said muffling areas having a muffling unit disposed therein, the volume of the muffling unit being different in different ones of said muffling areas.

9. An air fryer according to claim 8, wherein adjacent said sound deadening regions are separated by a cavity separating plate (87), said cavity separating plate (87) being secured to said upper sound absorbing plate (8) and extending downwardly from said upper sound absorbing plate (8) to abut against said lower sound absorbing plate (9), said cavity separating plate (87) extending radially of said air fryer.

10. An air fryer according to claim 8 wherein an intracavity baffle (88) is provided within at least one of said sound attenuating regions, said intracavity baffle (88) being secured to said upper sound attenuating panel (8) and extending downwardly from said upper sound attenuating panel (8), and said intracavity baffle (88) being spaced from said lower sound attenuating panel (9).

11. The air fryer according to claim 10, wherein said cavity interior partition (88) comprises at least two radial partitions extending in a radial direction of said air fryer, both radial partitions extending at radial ends to said support portion (89) and at said upper air guide portion (82).

12. The air fryer according to claim 11, wherein the chamber interior partition (88) comprises a circumferential partition extending in a circumferential direction of the air fryer, both circumferential ends of the circumferential partition are connected to the radial partitions, respectively, and the circumferential partition is disposed between the support portion (89) and the upper air guide portion (82).

13. An air fryer according to any one of claims 1 to 12 wherein said lower sound-absorbing panel (9) is an air duct panel within said air fryer.

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