CN220917210U - Air fryer with drip humidifying structure - Google Patents

Abstract

The utility model discloses an air fryer with a dripping humidifying structure, which comprises a shell, a heating cavity and a water inlet, wherein the shell is provided with a heating cavity; the oil receiving barrel is arranged in the heating cavity; the water dripping assembly comprises a water cup and a valve assembly, the water cup is provided with a water outlet hole, and the water cup is arranged on the shell and is positioned above the heating cavity; the valve component is arranged at the water outlet hole; when the oil receiving barrel is pushed into the heating cavity, the oil receiving barrel acts on the valve assembly to trigger the valve assembly to be opened, and water in the water cup is dripped into the oil receiving barrel from the water outlet hole; when the oil receiving barrel exits the heating cavity, the oil receiving barrel is separated from the valve component, and the valve component is closed; the oil receiving barrel directly acts on the valve component to trigger the valve component to be opened, and after the interaction between the oil receiving barrel and the valve component is released, the valve component is immediately closed, so that the opening and closing structure of the valve component is simplified, and the space occupation and the cost are reduced.

Description

Air fryer with drip humidifying structure

Technical Field

The utility model relates to the technical field of household appliances, in particular to an air fryer with a dripping humidifying structure.

Background

When the air fryer is used for baking and cooking food materials, the hot air in the cooking cavity is drier, so that the moisture in the food materials is lost, and the final finished product tastes dry firewood, so that the eating experience of consumers is affected; therefore, some manufacturers introduce an electric-control type dripping and humidifying structure, but the electric-control assembly is high in cost and occupies a large amount of installation space.

Disclosure of utility model

In order to overcome at least one of the defects in the prior art, the utility model provides an air fryer with a dripping and humidifying structure, which directly acts on a valve assembly through an oil receiving barrel to trigger the valve assembly to be opened, and the valve assembly is closed immediately after the interaction between the oil receiving barrel and the valve assembly is released, so that the opening and closing structure of the valve assembly is simplified, and the space occupation and the cost are reduced.

The utility model adopts the technical proposal for solving the problems that:

An air fryer having a drip humidifying structure, comprising:

A housing provided with a heating chamber;

the oil receiving barrel is arranged in the heating cavity;

The water dripping assembly comprises a water cup and a valve assembly, the water cup is provided with a water outlet, and the water cup is arranged on the shell and is positioned above the heating cavity; the valve component is arranged at the water outlet hole;

when the oil receiving barrel is pushed into the heating cavity, the oil receiving barrel acts on the valve assembly to trigger the valve assembly to be opened, and water in the water cup is dripped into the oil receiving barrel from the water outlet hole; when the oil receiving barrel exits from the heating cavity, the oil receiving barrel is separated from the valve assembly, and the valve assembly is closed.

Further, the valve assembly comprises a water outlet valve and a sealing ring;

The water outlet hole is formed in the bottom of the water cup, the water outlet valve penetrates through the water outlet hole and protrudes out of the bottom of the water outlet hole, and a water outlet gap is formed between the water outlet valve and the water outlet hole;

The sealing ring is arranged on the water outlet valve, and the sealing ring is blocked at the top of the water outlet hole and is used for blocking water in the water cup from entering the water outlet hole;

When the oil receiving barrel is pushed into the heating cavity, the oil receiving barrel acts on the water outlet valve to push the water outlet valve to be lifted, and the sealing ring is separated from the top of the water outlet hole, so that the water outlet hole is communicated with the inner cavity of the water cup.

Further, the valve assembly further comprises a first reset member;

The first reset piece acts on the water outlet valve, the oil receiving barrel withdraws from the heating cavity, the oil receiving barrel releases the action on the water outlet valve so that the water outlet valve falls back down, and the sealing ring is blocked at the top of the water outlet hole.

Further, the bottom of the water cup is of a downward adduction structure, a buckling plane is arranged at the lowest position of the downward adduction structure, and the sealing ring is buckled on the buckling plane.

Further, the device also comprises a driving assembly, wherein the driving assembly comprises a jacking piece;

the jacking piece comprises a sleeve joint cylinder, an abutting piece and a lifting rod, wherein the abutting piece is arranged in the sleeve joint cylinder, and the lifting rod is connected with the sleeve joint cylinder;

The sleeve is sleeved below the water outlet hole, and the lifting rod is arranged in the shell in a penetrating manner;

when the oil receiving barrel is pushed into the heating cavity, the oil receiving barrel acts on the lifting rod, the lifting rod pushes the sleeve joint barrel and the abutting piece to lift, the abutting piece acts on the water outlet valve to push the water outlet valve to lift, and water in the water cup flows into the oil receiving barrel from the sleeve joint barrel.

Further, the drive assembly further comprises a second reset member;

The second reset piece acts on the lifting rod, so that after the oil receiving barrel exits from the heating cavity, the second reset piece pushes the lifting rod to descend for reset.

Further, the driving assembly further comprises a push rod;

the ejector rod is movably arranged on the shell and is connected with the lifting rod;

When the oil receiving barrel is pushed into the heating cavity, the oil receiving barrel is arranged on the ejector rod, and the ejector rod jacks up the lifting rod.

Further, the ejector rod is inserted into the lifting rod.

Further, the driving assembly further comprises a third reset piece;

The third reset piece acts on the ejector rod so that after the oil receiving barrel exits from the heating cavity, the third reset piece pushes the ejector rod to descend for reset.

Further, the cup cover is also included;

The cup cover is covered on the water cup.

In summary, the air fryer with the dripping humidifying structure provided by the utility model has the following technical effects:

The oil receiving barrel directly acts on the valve component to trigger the valve component to be opened, and the valve component is closed immediately after the interaction between the oil receiving barrel and the valve component is released; the opening and closing structure of the valve component is simplified by the principle of direct action of the two components, so that the space occupation and the cost of the structure are reduced.

Drawings

FIG. 1 is a cross-sectional view of an embodiment of the present utility model;

Fig. 2 is an enlarged view at a in fig. 1.

Wherein the reference numerals have the following meanings:

1. A housing; 11. a heating chamber; 2. an oil receiving barrel; 3. a drip assembly; 31. a water cup; 311. a buckling plane; 32. a valve assembly; 321. a water outlet valve; 322. a seal ring; 323. a first reset member; 33. an outer sleeve; 4. a water outlet gap; 5. a drive assembly; 51. a jack-up member; 511. a sleeve joint cylinder; 512. an abutment; 513. lifting the rod; 52. a second reset member; 53. a push rod; 54. a third reset member; 55. briquetting; 6. a cup cover; 7. an inner cover.

Detailed Description

For a better understanding and implementation, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model.

In the description of the present utility model, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, only for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

Example 1

Referring to fig. 1 and 2, the present utility model discloses an air fryer with a drip humidifying structure, comprising:

A housing 1; a heating chamber 11 is provided, and in this embodiment, the heating chamber 11 is provided on a side wall of the housing 1 to form an opening in the side wall;

The oil receiving barrel 2 is arranged in the heating cavity 11, and as can be known from the prior art, the connector is pushed into or withdrawn from the heating cavity 11 in a drawing manner.

The water dripping assembly 3 comprises a water cup 31 and a valve assembly 32, wherein the water cup 31 is provided with a water outlet, and the water cup 31 is arranged on the shell 1 and is positioned above the heating cavity 11; the valve component 32 is arranged at the water outlet hole;

When the oil receiving barrel 2 is pushed into the heating cavity 11, the oil receiving barrel 2 acts on the valve component 32 to trigger the valve component 32 to be opened, and water in the water cup 31 is dripped into the oil receiving barrel 2 from the water outlet hole; when the oil receiving barrel 2 exits the heating cavity 11, the oil receiving barrel 2 and the valve assembly 32 are separated, and the valve assembly 32 is closed.

Preferably, the valve assembly 32 comprises a water outlet valve 321 and a sealing ring 322, and preferably, the sealing ring 322 is made of plastic material; the apopore sets up in drinking cup 31 bottom, and water valve 321 wears to locate the apopore and outstanding in the apopore bottom, has play water gap 4 between water valve 321 and the apopore, and preferably, water valve 321 is the spliced pole, and the diameter of spliced pole is less than the diameter of apopore to form foretell play water gap 4 between the two.

The sealing ring 322 is disposed on the water outlet valve 321, in this embodiment, the sealing ring 322 is disposed on the top of the plug-in post, and the sealing ring 322 blocks on the top of the water outlet hole, so as to block water in the water cup 31 from entering the water outlet hole.

Therefore, as can be seen from the above description, in the initial state, under the action of gravity, the sealing ring 322 is buckled at the top of the water outlet hole to block water in the water cup 31, when the oil receiving barrel 2 is pushed into the heating cavity 11, the top of the side wall of the oil receiving barrel 2 acts on the water outlet valve 321, that is, the top of the side wall of the oil receiving barrel 2 is abutted against the lower end of the plug post to push the water outlet valve 321 to lift upwards, and finally the sealing ring 322 is separated from the top of the water outlet hole to enable the water outlet hole to be communicated with the inner cavity of the water cup 31, and it is noted that the water outlet hole is located above the cooking cavity of the oil receiving barrel 2 at this time; it can be known that water is injected into the water cup 31, and water in the water cup 31 is dripped into the cooking cavity of the oil receiving barrel 2 from the water outlet gap 4 between the plug-in column and the water outlet hole, so that the effect of wetting food in the cooking cavity is achieved; after cooking is completed, the oil receiving barrel 2 is withdrawn from the heating cavity 11, the contact between the top of the oil receiving barrel 2 and the bottom of the plug-in column is released, the water outlet valve 321 falls back under the action of gravity, the sealing ring 322 closes the top of the water outlet hole again after returning to the initial position, and water in the water cup 31 stops flowing into the water outlet hole, so that the effect of stopping dripping is achieved.

According to the above, the valve assembly 32 is directly abutted to the oil receiving tank 2 to complete lifting and open the water outlet, and meanwhile, after the abutment between the valve assembly 32 and the oil receiving tank is released, the valve assembly 32 can fall back and close the water outlet under the action of gravity, so that the principle structure and principle are simpler, the cost is reduced, and the space occupation of the valve assembly 32 is reduced.

Further, since the sealing ring 322 is soaked in the water cup 31 when the sealing ring 322 is lifted to open the water outlet, the sealing ring 322 may not be able to quickly close the water outlet under the action of the buoyancy force in the falling process of the sealing ring 322, so the valve assembly 32 further includes the first reset member 323; the first reset element 323 acts on the water outlet valve 321, and preferably, the first reset element 323 is a first reset spring; the oil receiving barrel 2 is withdrawn from the heating cavity 11, the oil receiving barrel 2 releases the action on the water outlet valve 321, so that the water outlet valve 321 falls back, and the sealing ring 322 is blocked at the top of the water outlet hole; specifically, the bottom of play water valve 321 is provided with the boss, and the bottom of play water valve 321 is cup jointed to first reset spring, and the top butt in the bottom of drinking cup 31 of first reset spring, and the bottom butt in the top of boss of first reset spring, from this, first reset spring is pushed down whole valve assembly 32 under the extension of elasticity effect, in order to prevent the skew of first reset spring, the bottom of drinking cup 31 is provided with outer sleeve 33, outer sleeve 33 surrounds the bottom of apopore, first reset spring sets up in outer sleeve 33.

In summary, the oil receiving barrel 2 is abutted to the bottom end of the water outlet valve 321, and then when the water outlet valve 321 is lifted, the first reset spring is compressed so as to have a tendency that the water outlet valve 321 is pushed downwards; after the oil receiving barrel 2 exits the heating cavity 11, the first return spring rebounds and the water outlet valve 321 falls back, so that the water outlet valve 321 can fall back quickly under the drive of the elastic force of the first return spring.

Other realizable schemes also include that the valve component 32 does not include the sealing ring 322, except that the plug-in column is in a shape of a circular truncated cone, and the plug-in column in the shape of the circular truncated cone is reversely inserted into the water blowing hole, and because the side surface of the plug-in column is an inclined surface, after the plug-in column is lifted, the water outlet hole can be opened, the plug-in column falls back, and the side wall of the plug-in column is tightly pressed against the top end of the water outlet hole so as to close the water outlet hole.

Alternatively, the valve assembly 32 may be provided directly as a conventional manually-operated valve, in particular, the manually-operated valve may be provided on the side wall or bottom of the cup 31, but such a valve is manually operated and will not be described again here.

Preferably, in order to enhance the buckling sealing closing effect of the sealing ring 322 on the water outlet, the bottom of the water cup 31 is of a downward adduction structure, and a buckling plane 311 is arranged at the lowest position of the downward adduction structure, and the sealing ring 322 is buckled on the buckling plane 311; specifically, the bottom of the water cup 31 is in an inverted circular truncated cone shape, so that the side surface of the bottom of the water cup 31 is in a downward and inward folded structure, that is, the downward inward folded structure, and meanwhile, the bottom of the inverted circular truncated cone shape is in a platform structure, and therefore, a buckling plane 311 is arranged at the lowest position of the downward inward folded structure.

The sealing ring 322 is buckled on the buckling plane 311, and as the side walls of the round platforms at the periphery of the sealing ring 322 are higher than the sealing ring 322 and are of inclined structures, the water at the periphery of the sealing ring 322 has a force for extruding the middle part of the sealing ring 322 inwards, so that the buckling tightness of the sealing ring 322 is enhanced; meanwhile, the inverted circular-table-shaped cup bottom is beneficial to water flowing out to the water outlet hole, and accumulated water residue of the water cup 31 is avoided.

Preferably, the top of the sealing ring 322 is of an arc structure for increasing the contact surface with water, and a cavity is arranged in the middle of the bottom surface of the sealing ring 322, so that a negative pressure cavity is formed after the sealing ring 322 is buckled on the buckling plane 311, and the adhesion force between the sealing ring 322 and the buckling plane 311 is enhanced.

Example two

On the basis of the first embodiment, referring to fig. 1 and 2, after the top wall of the side wall of the oil receiving barrel 2 abuts against the bottom end of the water outlet valve 321, water can flow out from the water outlet gap 4 and possibly flow out into the heating cavity 11 along the side wall of the oil receiving barrel 2, and therefore, the embodiment further comprises a driving assembly 5, and the driving assembly 5 comprises a jack-up member 51; the jack-up member 51 includes a sleeve 511, an abutment member 512 and a lifting lever 513, wherein the abutment member 512 is disposed in the sleeve 511, and it should be noted that the abutment member 512 does not block the inner cavity of the sleeve 511 for water to drop; lifting lever 513 is attached to sleeve 511, more specifically lifting lever 513 is attached to the outer wall of sleeve 511; the sleeve 511 is sleeved below the water outlet, and more specifically, the sleeve 511 is sleeved outside the outer sleeve 33; the lifting lever 513 is provided penetrating the housing 1, and in this embodiment, the lifting lever 513 extends away from the center of the heating chamber 11.

When the oil receiving barrel 2 is pushed into the heating cavity 11, the oil receiving barrel 2 acts on the lifting rod 513, the lifting rod 513 pushes the sleeve barrel 511 and the abutting piece 512 to lift, and the abutting piece 512 acts on the water outlet valve 321 to push the water outlet valve 321 to lift, so that water in the water cup 31 flows into the oil receiving barrel 2 from the sleeve barrel 511.

Similarly, in order to enable the driving assembly 5 to fall back quickly, the driving assembly 5 further includes a second reset member 52; the second reset piece 52 acts on the lifting rod 513, so that after the oil receiving barrel 2 exits the heating cavity 11, the second reset piece 52 pushes the lifting rod 513 to descend for reset; preferably, the second restoring member 52 is a second restoring spring, and the second restoring spring is sleeved outside the sleeve 511, and the top end of the second restoring spring acts on the housing 1. The bottom end acts on the top of the lifting rod 513; the lifting rod 513 is lifted, the second return spring is compressed, and after the oil receiving barrel 2 is withdrawn from the heating cavity 11, the second return spring pushes the lifting rod 513 to descend for return; in particular, lift lever 513 is not disposed at the bottom end of sleeve 511 to avoid water droplets from running along the inside wall of sleeve 511 and out of the oil receiving drum along lift lever 513.

The above-mentioned arrangement of the lifting lever 513 makes the water outlet well located completely above the cooking cavity of the oil receiving tub 2, and the water drops do not drip out of the oil receiving tub 2.

Further, to better realize the abutment of the oil receiving barrel 2 and the lifting rod 513, the driving assembly 5 further comprises a push rod 53; the ejector rod 53 is movably arranged on the shell 1 and is connected with the lifting rod 513; when the oil receiving barrel 2 is pushed into the heating cavity 11, the oil receiving barrel 2 is arranged on the ejector rod 53, and the ejector rod 53 lifts the lifting rod 513.

Preferably, in order to facilitate the installation of the whole driving assembly 5, the ejector rod 53 and the lifting rod 513 are detachably connected, preferably, the ejector rod 53 is inserted into the lifting rod 513, specifically, an insertion rod is arranged on a side wall of the ejector rod 53 and is inserted into one end of the lifting rod 513 far away from the sleeve 511.

As can be seen from the above, the ejector rod 53 is lifted after being abutted by the oil receiving barrel 2, so as to facilitate the falling back of the ejector rod 53, the driving assembly 5 further includes a third reset element 54, and preferably, the third reset element 54 is a third reset spring; the third reset piece 54 acts on the ejector rod 53, so that after the oil receiving barrel 2 exits the heating cavity 11, the third reset piece 54 pushes the ejector rod 53 to descend for reset; specifically, a sleeve hole is formed in the top of the ejector rod 53, a third reset spring is arranged in the sleeve hole, the top of the third reset spring acts on the shell 1, the ejector rod 53 is lifted, the third reset spring is compressed, and after the oil receiving barrel 2 is withdrawn from the heating cavity 11, the third reset spring stretches to push the ejector rod 53 to fall back; the other driving assembly 5 further comprises a pressing block 55, the pressing block 55 is arranged on the shell 1, the top of the third reset spring acts on the bottom of the pressing block 55, preferably, a positioning groove can be formed in the bottom of the pressing block 55, and the top of the third reset spring is arranged in the positioning groove.

According to the prior art, the air fryer further comprises an inner cover 7, in particular, the inner cover 7 is of an annular structure, the inner cover 7 is arranged in the heating cavity 11 and is positioned at the top of the heating cavity 11, and the inner cover 7 can move in the height direction of the heating cavity 11; specifically, in this embodiment, ribs are disposed at the top of the inner cover 7, the ribs act on the bottom end of the ejector rod 53, after the oil receiving barrel 2 is pushed into the heating cavity 11, the oil receiving barrel 2 acts on the bottom of the inner cover 7, the ribs at the top of the inner cover 7 act on the ejector rod 53, and the inner cover 7 is covered on the top edge of the oil receiving barrel 2; of course, the inner cap 7 may directly act on the ejector 53.

Other embodiments also include: the driving assembly 5 only comprises a jacking piece 51, the jacking piece 51 is a protruding block, the protruding block is arranged on the inner wall of the oil connecting barrel 2, meanwhile, the top of the protruding block is provided with an abutting inclined plane, the highest point of the abutting inclined plane is not lower than the top surface of the side wall of the oil connecting barrel 2, in an initial state, the bottom end of the plugging column is located between the top surface of the side wall of the oil connecting barrel 2 and the highest point of the abutting inclined plane, after the oil connecting barrel 2 is pushed into the heating cavity 11, the abutting inclined plane is accurately abutted to the bottom end of the plugging column, so that the plugging column is lifted, and after the oil connecting barrel 2 exits from the heating cavity 11, the abutting of the abutting inclined plane and the bottom end of the plugging column is released, and the plugging column falls back.

More preferably, in order to prevent water drops from flowing along the protruding block to the outer side of the side wall of the oil receiving barrel 2, a separation groove is arranged on the protruding block, the separation groove is arranged between the abutting inclined plane and the inner wall of the oil receiving barrel 2, and more importantly, the bottom of the separation groove is lower than the top surface of the side wall of the oil receiving barrel 2, and after the water drops flow into the separation groove, the water drops flow into the cooking cavity from the separation groove.

Further, the air fryer also comprises a cup cover 6; the cup cover 6 covers the top of the water cup 31 to prevent impurities from entering the water cup 31 and prevent the water outlet gap 4 from being blocked.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the embodiment, and also comprises the technical scheme formed by any combination of the technical features. It should be noted that modifications and adaptations to the utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (10)

1. An air fryer having a drip humidifying structure, comprising:

a housing (1) provided with a heating chamber (11);

the oil receiving barrel (2) is arranged in the heating cavity (11);

The water dripping assembly (3) comprises a water cup (31) and a valve assembly (32), wherein the water cup (31) is provided with a water outlet, and the water cup (31) is arranged on the shell (1) and is positioned above the heating cavity (11); the valve assembly (32) is arranged at the water outlet hole;

when the oil receiving barrel (2) is pushed into the heating cavity (11), the oil receiving barrel (2) acts on the valve assembly (32) to trigger the valve assembly (32) to be opened, and water in the water cup (31) is dripped into the oil receiving barrel (2) from the water outlet hole; when the oil receiving barrel (2) exits the heating cavity (11), the oil receiving barrel (2) is separated from the valve assembly (32), and the valve assembly (32) is closed.

2. An air fryer with drip humidifying structure according to claim 1, wherein said valve assembly (32) comprises a water outlet valve (321) and a sealing ring (322);

The water outlet hole is formed in the bottom of the water cup (31), the water outlet valve (321) penetrates through the water outlet hole and protrudes out of the bottom of the water outlet hole, and a water outlet gap (4) is formed between the water outlet valve (321) and the water outlet hole;

the sealing ring (322) is arranged on the water outlet valve (321), and the sealing ring (322) is blocked at the top of the water outlet hole and is used for blocking water in the water cup (31) from entering the water outlet hole;

When the oil receiving barrel (2) is pushed into the heating cavity (11), the oil receiving barrel (2) acts on the water outlet valve (321) to push the water outlet valve (321) to be lifted, and the sealing ring (322) is separated from the top of the water outlet hole so that the water outlet hole is communicated with the inner cavity of the water cup (31).

3. An air fryer with drip humidifying structure according to claim 2, wherein said valve assembly (32) further comprises a first reset member (323);

The first reset piece (323) acts on the water outlet valve (321), the oil receiving barrel (2) withdraws from the heating cavity (11), the oil receiving barrel (2) releases the action on the water outlet valve (321) so that the water outlet valve (321) falls back, and the sealing ring (322) is blocked at the top of the water outlet hole.

4. An air fryer with drip humidifying structure according to any one of claims 2 or 3, wherein the bottom of said cup (31) is a downward adduction structure, a buckling plane (311) is provided at the lowest position of said downward adduction structure, and said sealing ring (322) is buckled on said buckling plane (311).

5. An air fryer with drip humidifying structure according to any one of claims 1-3, further comprising a drive assembly (5), said drive assembly (5) comprising a jack-up member (51);

The jacking piece (51) comprises a sleeve joint barrel (511), an abutting piece (512) and a lifting rod (513), wherein the abutting piece (512) is arranged in the sleeve joint barrel (511), and the lifting rod (513) is connected to the sleeve joint barrel (511);

The sleeving barrel (511) is sleeved below the water outlet, and the lifting rod (513) is arranged in the shell (1) in a penetrating mode;

When the oil receiving barrel (2) is pushed into the heating cavity (11), the oil receiving barrel (2) acts on the lifting rod (513), the lifting rod (513) pushes the sleeve joint barrel (511) and the abutting piece (512) to be lifted, the abutting piece (512) acts on the water outlet valve (321) to push the water outlet valve (321) to be lifted, and water in the water cup (31) flows into the oil receiving barrel (2) from the sleeve joint barrel (511).

6. An air fryer with drip humidifying structure according to claim 5, wherein said drive assembly (5) further comprises a second reset member (52);

The second reset piece (52) acts on the lifting rod (513) so that after the oil receiving barrel (2) exits the heating cavity (11), the second reset piece (52) pushes the lifting rod (513) to descend for reset.

7. An air fryer with drip humidifying structure according to claim 6, characterized in that said drive assembly (5) further comprises a push rod (53);

The ejector rod (53) is movably arranged on the shell (1) and is connected with the lifting rod (513);

When the oil receiving barrel (2) is pushed into the heating cavity (11), the oil receiving barrel (2) is arranged on the ejector rod (53), and the ejector rod (53) jacks up the lifting rod (513).

8. An air fryer with drip humidifying structure according to claim 7, characterized in that said push rod (53) is inserted with said lifting rod (513).

9. An air fryer with drip humidifying structure according to claim 7 or 8, characterized in that the drive assembly (5) further comprises a third reset member (54);

The third reset piece (54) acts on the ejector rod (53) so that after the oil receiving barrel (2) exits the heating cavity (11), the third reset piece (54) pushes the ejector rod (53) to descend for reset.

10. An air fryer with drip humidifying structure according to claim 1, characterized by further comprising a lid (6);

the cup cover (6) is covered on the water cup (31).