CN215583912U - Visual multifunctional air fryer - Google Patents

Abstract

The utility model discloses a visual multifunctional air fryer, which is provided with an upper fryer body and a lower fryer body which are matched with each other; the upper pot body includes: the hot air convection device comprises an upper shell, a lining and a hot air convection component; the lower pot body includes: the lower shell, the inner pot and the heating element; the upper pot body is provided with more than one observation window, and the visible range of the observation windows covers the inside of the whole inner pot; the observation window includes: a first transparent mirror mounted to the upper housing and a second transparent mirror mounted to the inner liner. The observation window has wide visual range, can cover the whole inner pot, and can better observe the cooking food condition in the inner pot; the hot air convection assembly of the upper pot body comprises the light wave tube, and the heat radiation of the light wave tube can realize illumination on the inner pot when heating food, so that the cooking condition of the food in the inner pot can be better observed.

Description

Visual multifunctional air fryer

Technical Field

The utility model relates to the technical field of air fryer, in particular to a visual multifunctional air fryer.

Background

At present there are some multi-functional air fryer, contained the air and fried, roast function etc. but need seal at the culinary art in-process, if the culinary art effect of food then need open door or pot cover and just can see, then troublesome poeration, two then uncap (open the door) in-process, can cause the calorific loss in the pot, reduce efficiency.

Thus, the prior art has added viewing windows to air fryers, such as: chinese patent No.: 2017219297517, an air fryer with a transparent window is disclosed, comprising: the shell comprises a heating cavity and a heating cavity; in the patent structure, the upper cover is provided with the observation window, but the observation field is small, only a local area of food can be observed, the cooking condition of the food cannot be observed in all directions, and the experience effect is poor;

for another example: chinese patent No.: 2019217097178, an air fryer with reliable observation is disclosed, which comprises a base and a cover body hinged with the base, wherein a fryer component is arranged in the base, the fryer component comprises an inner pan, a hot air component is arranged in the cover body, a transparent visual window is arranged on the cover body, the visual window is positioned above the inner pan, the visual window comprises an outer window and an inner window, the outer window is obliquely arranged, the inner window transversely extends, and a visual cavity is formed by the outer window, the inner window and the cover body in a surrounding way; visual window encircles hot-blast subassembly setting in the above-mentioned patent, and outer window and interior window outer fringe pass through the connecting piece and connect, and outer window and interior window inner edge respectively with hot-blast subassembly outer wall connection, and whole structure is complicated, and the assembly step is loaded down with trivial details to adopt annular visual window in the above-mentioned patent, influence is great to the outward appearance, can not the wide application in other outward appearances, hot-blast subassembly center skew fryer subassembly center, because of visual window leads to hot-blast unable balanced heating to pot food.

In view of the above problems, the applicant has proposed the following techniques.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a multi-functional visible air fryer.

In order to achieve the purpose, the utility model adopts the following technical scheme: a visual multifunctional air fryer is provided with an upper fryer body and a lower fryer body which are matched with each other; the upper pot body includes: the hot air convection device comprises an upper shell, a lining and a hot air convection component; the lower pot body includes: the lower shell, the inner pot and the heating element; the upper pot body is provided with more than one observation window, and the visible range of the observation windows covers the inside of the whole inner pot; the observation window includes: a first transparent mirror mounted to the upper housing and a second transparent mirror mounted to the inner liner. In the above-mentioned technique, the visual range of observation window is wide, can all-round, keep the culinary art condition of food in the dead angle ground observation inner pot, and easy operation is convenient, and the user feels better in use.

In a further technical scheme, the top of the upper pot body is provided with a handle, the number of the observation windows is two, and the two observation windows are symmetrically distributed on two sides of the handle; and the visual range of the single observation window is at least one half part of the inner pot. The distribution positions and the number of the observation windows are limited, the observation windows are symmetrically distributed on the two sides of the handle, the visual range of each observation window is larger than one half of the inner pot, and the cooking condition of food in the inner pot can be observed in an all-round way without dead angles through the two observation windows.

In a further technical scheme, the first transparent mirror is parallel to the second transparent mirror, and an included angle A is formed between the first transparent mirror and the horizontal plane; the value range of the included angle A is as follows: 0 to 60 degrees. The limitation of the angle A is that the angle of the observation window is set in the range of the included angle through multiple measurement and calculation, and the observation effect is better.

In a further technical scheme, a transparent mirror bracket is arranged between the first transparent mirror and the second transparent mirror; the transparent mirror bracket connects the first transparent mirror and the second transparent mirror to form a closed observation cavity. The first transparent mirror, the second transparent mirror and the transparent mirror support form a sealed observation cavity, the cooking condition of food in the inner pot can be observed visually, the inner sides of the first transparent mirror and the second transparent mirror can be prevented from being polluted by water vapor, oil stain and the like, the first transparent mirror and the second transparent mirror can not be cleaned or are difficult to clean, and the observation effect is ensured.

In a further technical scheme, the transparent mirror bracket is of a hollow tubular structure; the both ends of transparent mirror support are outwards extended and are formed with supporting parts, and the supporting parts are in close contact with the upper shell and the lining, so that the transparent mirror support is convenient to stably install, and the airtightness of the observation cavity is ensured.

In a further technical scheme, mounting through grooves are formed in the upper shell and the lining respectively, and the first transparent mirror and the second transparent mirror are assembled in the mounting through grooves; two ends of the transparent mirror bracket respectively press against the first transparent mirror and the second transparent mirror to enable the first transparent mirror and the second transparent mirror to be tightly pressed in the installation through groove; the installation mode is simple and convenient, and meanwhile, the stability of installation of the first transparent mirror and the second transparent mirror is enhanced through the transparent mirror support.

In a further technical scheme, the handle is arranged in the middle of the top of the upper pot body, the handle protrudes upwards, and a space for installing the hot air convection assembly is formed inside the upper pot body; the installation position of the handle is limited, and the handle just corresponds to the installation position of the hot air convection assembly, and the installation space of the hot air convection assembly can be formed by upwards protruding the handle, so that the position layout of each part in the product is optimized.

In a further technical scheme, the hot air convection assembly is right above the center of the inner pot, and the hot air convection assembly comprises: the fan blade is arranged on the fan blade; the motor is assembled on the upper shell, and a power shaft of the motor penetrates through the lining to be connected with the fan blades and drives the fan blades to rotate; the light wave tube is positioned below the fan blades; the specific structure of the hot air convection assembly is limited, and the hot air convection assembly corresponds to the center of the inner pot to ensure that the hot air heats the food in the inner pot uniformly; the light wave tube is used as a heating element, and when the light wave tube works, heat radiation and light waves are emitted, the heat radiation heats food, and meanwhile, the light wave tube can illuminate the inner pot, so that the cooking condition of the food in the pot can be better observed.

In a further technical scheme, a protective net is assembled on the lining, and the light wave tube and the fan blades are positioned in a space covered by the protective net; the protection network protects optical wave pipe and flabellum, prevents to miss and touches, scalds the user.

In a further technical scheme, the hot air convection assembly is partially arranged in a space formed inside the handle, so that the volume of the upper pot body can be reduced; the lower shell body is internally provided with a containing cavity, the heating part is positioned in the containing cavity, the inner pot is placed on the heating part, and the heating part heats the inner pot.

According to the technical scheme, compared with the prior art, the utility model has the following beneficial technical effects: the observation window has wide visual range, can cover the whole inner pot, and can better observe the cooking food condition in the inner pot; the hot air convection assembly of the upper pot body comprises the light wave tube, and the heat radiation of the light wave tube can realize illumination on the inner pot when heating food, so that the cooking condition of the food in the inner pot can be better observed.

Other advantageous effects of the present invention are shown in the detailed description.

Drawings

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

FIG. 1 is a schematic top view of a multi-purpose air fryer;

FIG. 2 is a left perspective view of the multi-functional air fryer;

fig. 3 is a cross-sectional view taken along line a-a' of fig. 1.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

A multi-functional air fryer, as shown in fig. 1-3, comprising: the upper pot body 100 and the lower pot body 200 are combined, a roughly closed cooking space is formed inside the upper pot body 100 and the lower pot body 200, and heat circulates in the cooking space to cook food materials.

The upper pot body 100 and the lower pot body 200 can be in a split structure, the upper pot body 100 can be completely separated from the lower pot body 200 and fixed in a buckling or locking way and the like during combination; or the upper pot body 100 and the lower pot body 200 are in a flip structure and are pivoted through a pivoting component, the upper pot body 100 can be turned over relative to the lower pot body 200 to open/close the cooking space, and the connection mode between the upper pot body 100 and the lower pot body 200 is not limited.

The upper pot body 100 includes: the upper shell 110, the inner liner 120 and the hot air convection assembly 300; generally, the upper housing 110 is made of plastic, and the inner liner 120 is made of metal; the inner liner 120 is mounted on the inner surface of the upper shell 110 and fixed relatively therebetween; an insulation space is formed between the upper case 110 and the liner 120, so that excessive heat transfer to the upper case 110 can be prevented through the insulation space, and the user can be prevented from being scalded by the excessive temperature of the upper case 110 while the heat is prevented from being dissipated.

The upper pot body 100 is provided with more than one observation window 500, the visible range of the observation windows 500 covers the whole inner pot 220, and the cooking condition of food in the inner pot 220 can be directly observed through the observation windows 500;

the observation window 500 includes: a first transparent mirror 510 and a second transparent mirror 520; the first transparent mirror 510 is mounted on the upper shell 110, the second transparent mirror 520 is mounted on the inner liner 120, and the first transparent mirror 510 corresponds to the second transparent mirror 520; the first transparent mirror 510 and the second transparent mirror 520 form an included angle a with the horizontal plane, and the value range of the included angle a is as follows: 0 ° to 60 °, in this embodiment, a is 25 °, and optionally, in other embodiments, a may also be 15 °, 30 °, 45 °, and 60 °. As shown in fig. 3, the range where the dotted line a intersects with the dotted line b constitutes the maximum visible range of the single observation window 500, and in fig. 3, it is apparent that the visible range of the single observation window 500 is more than half of the inner pot 220, and then the visible ranges of the two observation windows 500 cover the whole inner pot 220.

As shown in fig. 1 and 2, a handle 130 is disposed on the top of the upper pot 100, the upper pot 100 can be smoothly opened/closed relative to the lower pot 200 by the handle 130, as can be seen from fig. 2, the handle 130 is disposed in the middle of the upper pot 100, two observation windows 500 are disposed, namely a first observation window 500A and a second observation window 500B, and the first observation window 500A and the second observation window 500B are symmetrically distributed on two sides of the handle 130; the first and second observation windows 500A and 500B have a visible range of at least one-half of the inner pot 220, so that the cooking condition of the food in the inner pot 220 can be observed in all directions without dead angles through the first and second observation windows 500A and 500B.

The handle 130 is positioned in the middle of the upper pot body 100, and the observation windows 500 are distributed around the handle 130, so that the arrangement of the observation windows 500 is convenient.

The outer surface of the first transparent mirror 510 is exposed on the surface of the upper housing 110, and the outer surface of the second transparent mirror 520 is exposed on the surface of the lining 120, when cleaning, the outer surfaces of the first transparent mirror 510 and the second transparent mirror 520 can be simply and quickly cleaned, while the inner surfaces of the first transparent mirror 510 and the second transparent mirror 520 are difficult to clean/clean, if the inner surfaces of the first transparent mirror 510 and the second transparent mirror 520 are adhered by oil stains, observation can be affected, in order to prevent the oil stains from being adhered to the inner surfaces of the first transparent mirror 510 and the second transparent mirror 520, two implementation manners can be provided, the first is to seal the space between the upper housing 110 and the lining 120 to prevent oil smoke from entering; the second is to add a transparent mirror support 530 between the first transparent mirror 510 and the second transparent mirror 520.

The opposite side of the first transparent mirror 510 and the second transparent mirror 520 is defined as an inner surface, and the opposite side is defined as an outer surface.

Further, in this embodiment, a transparent mirror support 530 is additionally disposed between the first transparent mirror 510 and the second transparent mirror 520, and the observation cavity 501 is formed among the first transparent mirror 510, the second transparent mirror 520 and the transparent mirror support 530, so that the inside of the inner pot 220 can be observed through the inside of the first transparent mirror 510, the transparent mirror support 530 and the second transparent mirror 520 during observation.

The upper shell 110 and the inner liner 120 are provided with an installation through groove, the installation through groove is provided with an inner bottom wall and a through hole, the inner bottom wall forms a supporting surface, and the edges of the first transparent mirror 510 and the second transparent mirror 520 can be supported on the supporting surface;

the transparent mirror bracket 530 is a hollow tubular structure, the transparent mirror bracket 530 is positioned in the heat insulation space, and two ends of the transparent bracket 530 are supported on the first transparent mirror 510 and the second transparent mirror 520, so that the first transparent mirror 510 and the second transparent mirror 520 are more stably pressed and mounted in the mounting through groove; because the first transparent mirror 510 and the second transparent mirror 520 are parallel to each other, it can be considered that the transparent mirror support 530 is sandwiched between the first transparent mirror 510 and the second transparent mirror 520, and meanwhile, the forces of the transparent mirror support 530 reacting on the first transparent mirror 510 and the second transparent mirror 520 are approximately the same, so that the installation is more stable; meanwhile, since both ends of the transparent bracket 530 are supported on the first transparent mirror 510 and the second transparent mirror 520, stable installation can be achieved, so that the design of the transparent mirror bracket 530 is more concise.

Further, the first transparent mirror 510 and the second transparent mirror 520 are substantially rectangular, and the area of the second transparent mirror 520 is slightly larger than that of the first transparent mirror 510, in this embodiment, the first transparent mirror 510 and the second transparent mirror 520 are limited to be parallel to each other, so that the observation angles of the first transparent mirror 510 and the second transparent mirror 520 are the same, and meanwhile, the transparent mirror support 530 can fix the two more conveniently; if the first transparent mirror 510 and the second transparent mirror 520 are not parallel to each other, the viewing angles and ranges of the two are different, which inevitably requires increasing the area of the second transparent mirror 520, wasting materials, and meanwhile, the lining 520 requires a larger installation position, which is inconvenient for product layout.

Furthermore, the two ends of the transparent mirror bracket 530 extend outward to form a support portion 531, the support portion 531 is used for tightly contacting the upper casing 110 and the inner lining 120, and the support portion 531 can be fixed between the upper casing 110 and the inner lining 120 by screwing, gluing, fastening, and the like.

Further, the observation cavity 501 is arranged in a sealed manner, so that water vapor, oil smoke and the like can be prevented from entering the observation cavity 501, and only the surface of the second transparent mirror 520 and the surface of the first transparent mirror 510 need to be wiped during cleaning, and the interior of the observation cavity 501 does not need to be cleaned.

When the first transparent mirror 510 is installed in the installation through groove of the upper housing 110 from the inner surface to the outer surface, but the through opening of the installation through groove is smaller than the area of the first transparent mirror 510, so that the first transparent mirror 510 does not penetrate through the installation through groove; the second transparent mirror 520 is installed in the installation through groove of the liner 120 from the inner surface to the outer surface, but the through opening of the installation through groove is smaller than the area of the second transparent mirror 520, so that the second transparent mirror 520 does not penetrate through the installation through groove, and the installation mode has simple and convenient assembly steps;

here, the corresponding surface of upper shell 110 and inner lining 120 is the inner surface, the outward surface of upper shell 110 is the outer surface, and the surface of inner lining 120 opposite to lower pot 200 is the outer surface;

in order to ensure the air tightness, the first transparent mirror 510 and the second transparent mirror 520 can be mounted in the mounting through groove by gluing; sealing rings can be additionally arranged between the first transparent mirror 510 and the second transparent mirror 520 and the installation through groove, so that external water vapor, dust and the like can be prevented from entering the heat insulation space through the installation through groove of the upper shell 110, and oil smoke and water vapor generated in the cooking space can be prevented from entering the observation cavity 501 through the installation through groove of the lining 120.

Optionally, since the structure of the observation window 500 is simple, the installation manner of the first transparent mirror 510 and the second transparent mirror 520 is very convenient and easy to implement, and then appropriate improvements can be made to change the number of the observation windows 500; in other embodiments, the position of the handle 130 is changed, for example, the handle 130 is configured to be a circular structure, and is disposed at the center of the top of the upper pot body 100, three observation windows may be distributed in a delta shape around the handle 130, or four observation windows may be distributed in a rectangular shape around the handle 130, so as to facilitate observation of the situation in the inner pot 220.

As shown in fig. 3, the hot air convection assembly 300 is located right above the center of the inner pot 220, so as to ensure uniform heating of food in the inner pot 220, and the hot air convection assembly 300 includes: a motor 310, a fan 320 and a light wave tube 330; the handle 130 protrudes out of the top of the upper pot body 100, so that a space for installing the motor 310 is formed in the upper casing 110, a power shaft of the motor 310 penetrates through the lining 120 to be connected with the fan blade 320 and drives the fan blade 320 to rotate, and when the fan blade 320 rotates, hot air is driven to circulate in the inner pot 220 to cook food;

the light wave tube 330 is located below the fan blade 320, the light wave tube 330 is used as a heating element, when the light wave tube 330 works, heat radiation and light waves are emitted, the heat radiation heats food, and meanwhile, the light waves can illuminate the inner pot 220, so that the cooking condition of the food in the pot can be better observed.

Furthermore, the lining 120 is provided with a protective mesh 340, the optical wave tube 330 and the fan blade 320 are located in the space covered by the protective mesh 340, so that the optical wave tube 330 and the fan blade 320 can be protected, and a user is prevented from being injured by touching the optical wave tube 330 by mistake; the protection net 340 may be mounted on the liner 120 by screwing, fastening, etc.

Further, the lower pot 200 includes: a lower case 210, an inner pot 220, and a heat generating member 400; a containing cavity is formed in the lower shell 210, the heating element 400 is positioned in the containing cavity, the inner pot 220 can be freely placed in the containing cavity, the inner pot 220 is positioned on the heating element 400, food in the inner pot is heated through the heating element 400, and the heating element 400 can be a heating plate; more specifically, the heating plate is installed in the cavity and exposed at the bottom of the cavity, and after the inner pot 220 is placed in the cavity, the bottom of the inner pot 220 can directly contact the heating plate, so that heating is quicker; or after the inner pot 220 is placed in the containing cavity, the bottom of the inner pot 220 is close to the heating plate, heat is transferred to the inner pot 220 through air, and heating is more uniform.

Further, a sealing member 121 is disposed at an edge of the inner liner 120, and after the upper pot body 100 is covered on the lower pot body 200, the sealing member 121 on the inner liner 120 can seal the cooking space.

Further, a lifting handle 230 is arranged on the lower shell 210, so that the whole lower pot body 200 can be lifted conveniently.

As shown in fig. 3, the hot air convection assembly 300 is located in the middle of the upper pot body 100, and the arrangement of the hot air convection assembly 300 affects the position of the observation window 500, and the observation window 500 cannot completely cover the top of the upper pot body 100, so that a plurality of observation windows 500 are arranged to avoid the hot air convection assembly 300; the first transparent mirror 510 and the second transparent mirror 520 are preferably arranged obliquely, that is, the first transparent mirror 510 and the second transparent mirror 520 form an included angle a with the horizontal plane, and the value range of the included angle a is as follows: 0 degree to 60 degrees; the observation angle can avoid the obstruction of the hot air convection assembly 300, and the food cooking condition right below the hot air convection assembly 300 can be observed.

The position of the hot air convection assembly 300 corresponds to the handle 130, and the motor 310 is installed in the space inside the handle 130, so that the volume of the upper pot body 100 can be reduced as much as possible; meanwhile, the space required to be avoided when the observation window 500 is installed can be reduced, and the arrangement of the observation window 500 is convenient.

Further, the upper pot body 100 and the lower pot body 200 are both provided with air flow holes, specifically, the handle 130 is provided with air flow ports, and the air flow ports correspond to the hot air convection assembly 300; an air flow opening is arranged at the lower shell 210 of the lower pan body 200.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A visual multifunctional air fryer comprises an upper pot body (100) and a lower pot body (200) which are matched with each other; the upper pot body (100) comprises: an upper shell (110), a liner (120) and a hot air convection assembly (300); the lower pot body (200) comprises: a lower shell (210), an inner pot (220) and a heating element (400); the method is characterized in that:

the upper pot body (100) is provided with more than one observation window (500), and the visible range of the observation window (500) covers the inside of the whole inner pot (220); the observation window (500) comprises: a first transparent mirror (510) mounted to the upper housing (110) and a second transparent mirror (520) mounted to the inner liner (120).

2. The multi-functional visual air fryer of claim 1, wherein: the top of the upper pot body (100) is provided with a handle (130), the number of the observation windows (500) is two, and the two observation windows (500) are symmetrically distributed on two sides of the handle (130); and is

The single observation window (500) has a visible range of at least one half of the inner pan (220).

3. The multi-functional visual air fryer of claim 2, wherein: the first transparent mirror (510) is parallel to the second transparent mirror (520), and an included angle A is formed between the first transparent mirror (510) and the horizontal plane as well as between the second transparent mirror (520) and the horizontal plane; the value range of the included angle A is as follows: 0 to 60 degrees.

4. The multi-functional visual air fryer of claim 1 or 2, wherein: a transparent mirror bracket (530) is arranged between the first transparent mirror (510) and the second transparent mirror (520); the transparent mirror bracket (530) connects the first transparent mirror (510) and the second transparent mirror (520) to form a closed observation cavity (501).

5. The multi-functional visual air fryer of claim 4, wherein: the transparent mirror bracket (530) is of a hollow tubular structure; both ends of the transparent mirror bracket (530) extend outwards to form supporting parts (531), and the supporting parts (531) are tightly contacted with the upper shell (110) and the lining (120).

6. The multi-functional visual air fryer of claim 5, wherein: an installation through groove is formed in each of the upper shell (110) and the lining (120), and the first transparent mirror (510) and the second transparent mirror (520) are assembled in the installation through grooves; two ends of the transparent mirror bracket (530) are respectively pressed against the first transparent mirror (510) and the second transparent mirror (520), so that the two transparent mirrors are tightly pressed in the installation through groove.

7. The multi-functional visual air fryer of claim 2, wherein: the handle (130) is arranged in the middle of the upper pot body (100), the handle (130) protrudes upwards, and a space for installing the hot air convection component (300) is formed inside the upper pot body (100).

8. The multi-functional visual air fryer of claim 1, wherein: the hot air convection assembly (300) is right above the center of the inner pot (220), and the hot air convection assembly (300) comprises: a motor (310), a fan blade (320) and a light wave tube (330); the motor (310) is assembled on the upper shell (110), and a power shaft of the motor (310) penetrates through the lining (120) to be connected with the fan blades (320) and drive the fan blades (320) to rotate; the light wave tube (330) is positioned below the fan blade (320).

9. The multi-functional visual air fryer of claim 8, wherein: the lining (120) is provided with a protective net (340), and the light wave tube (330) and the fan blades (320) are positioned in a space covered by the protective net (340).

10. The multi-functional visual air fryer of claim 1, wherein: the hot air convection assembly (300) is partially arranged in a space formed inside the handle (130); the lower shell (210) is internally provided with a containing cavity, the heating element (400) is positioned in the containing cavity, and the inner pot (220) is placed on the heating element (400).

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