CN220308974U - Multifunctional air frying oven - Google Patents

Abstract

The utility model discloses a multifunctional air frying oven which is provided with a cooking cavity, a heating assembly and a heating partition plate assembly, wherein the heating cavity is provided with a heating cavity; the heating partition plate component is detachably arranged in the cooking cavity to separate the cooking cavity and form a sub-cavity; the heat generating partition plate assembly includes: a separator, a heating tube, and an electrical connection portion; the cooking cavity is connected with a connector assembly, the heating partition plate assembly is inserted into the cooking cavity, the electric connection part is electrically connected with the connector assembly, and the heating assembly and the heating tube act on the sub-cavity. When the cooking appliance is used, the heating partition board assembly can be selectively arranged in the cooking cavity, and a certain sub-cavity can be independently used for cooking, so that the cooking appliance is suitable for cooking small amount of food and achieves the aim of saving energy; or the two sub-cavities cook different food materials at the same time, so as to prevent odor tainting; if cook when a large amount of food, can use after taking out the baffle subassembly that generates heat, the function is comprehensive, satisfies the different user demands of user.

Description

Multifunctional air frying oven

Technical Field

The utility model relates to the technical field of ovens, in particular to a multifunctional air frying oven.

Background

The air frying oven is a product with air frying and baking functions, and when the air frying oven is used, different baking frames can be placed in the cooking cavity, and different heating assemblies can be started, so that different functions can be realized.

At present, in the prior art, an air frying oven is arranged in a machine body, a cooking cavity is arranged, so that the cooking requirement is met, but when a small amount of food is cooked, the volume of the cooking cavity is large, and energy is wasted; when different kinds of food materials are cooked, the smell can be easily mixed during simultaneous cooking, and the cooking time is long and tedious during separate cooking; thus, in the prior art, there are baking-type cooking apparatuses with a partition arrangement, such as chinese patent No.: 202220329942.4A multifunctional dual-temperature-zone electric oven comprises a heating cavity, wherein a partition plate assembly for dividing the heating cavity into an upper zone and a lower zone is arranged in the middle of the heating cavity in the up-down direction, and comprises an upper partition plate, a lower partition plate and a heating pipe between the upper partition plate and the lower partition plate so as to heat and bake foods in the upper zone and foods in the lower zone; although the prior art solves the problems of energy waste and various food odor tainting caused by larger volume of the cooking cavity, the prior art also solves the problems that when a large amount of food is cooked, the single volume of the upper area or the lower area is small, a large amount of food cannot be cooked, and particularly, a large amount of food cannot be cooked.

Disclosure of Invention

In view of this, the present utility model provides a multi-functional air fryer.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the multifunctional air frying oven is provided with a cooking cavity and a heating component acting in the cooking cavity, and further comprises a heating partition board component; the heating partition plate component is detachably arranged in the cooking cavity to separate the cooking cavity and form a sub-cavity;

the heat generating partition plate assembly includes: the heating tube is assembled at the partition plate and is connected with the electric connecting part; the cooking cavity is connected with a connector assembly, the heating partition plate assembly is inserted into the cooking cavity, the electric connection part is electrically connected with the connector assembly, and the heating assembly and the heating tube act on the sub-cavity.

Through the technology, the heating partition board assembly can be selectively installed in the cooking cavity when in use, the cooking cavity is divided into two sub-cavities which are distributed up and down, and a certain sub-cavity can be independently used for cooking, so that the heating partition board assembly is suitable for cooking small amount of food materials, and the purpose of saving energy is achieved; or the two sub-cavities cook different food materials at the same time, so as to prevent odor tainting; if cook when a large amount of food, can use after taking out the baffle subassembly that generates heat, the function is comprehensive, satisfies the different user demands of user.

As a preferable mode of the utility model, at least one surface of the partition plate is provided with a heating tube; in the technology, if one surface of the partition plate is provided with the heating pipe, the partition plate can be positively and negatively arranged in the cooking cavity, and the heating pipe is selected to be matched with the sub-cavity of the upper area or the heating pipe is selected to be matched with the sub-cavity of the lower area; if the upper and lower surfaces of the partition plate are provided with heating pipes, the heating pipes can be simultaneously matched with the sub-cavities of the upper area and the lower area for use.

In a preferred embodiment of the present utility model, the heat-generating tube is disposed at a middle position of the thickness of the partition board, and after the heat-generating tube is mounted, the heat-generating tube can be exposed on the upper surface and the lower surface of the partition board, and acts on the sub-cavity of the upper area and the sub-cavity of the lower area.

As a preferable scheme of the utility model, a sealing ring is arranged at the edge of the partition plate; a support structure for supporting the partition plate is arranged in the cooking cavity; the sealing ring contacts with the inner wall of the cooking cavity to separate the adjacent sub-cavities; in the technology, the sealing ring mainly plays a sealing role, and is made of high-temperature-resistant materials.

As a preferred aspect of the present utility model, the electrical connection portion includes: the N pole guide rod and the L pole guide rod are connected to the two ends of the heating tube, and the E pole guide rod is connected to the partition plate;

the connector assembly includes: the connector comprises a connector cover, a base, a conductive terminal and a soft rubber pad, wherein the conductive terminal is assembled on the base, the soft rubber pad is installed on the end face of the base, a sealing notch is formed in the soft rubber pad, and an N-pole lead rod, an L-pole lead rod and an E-pole lead rod of an electric connection part pass through the sealing notch and are electrically connected with the conductive terminal; in the technology, the heating partition board component is arranged in the cooking cavity, the electric connection part is directly inserted into the connector component to complete electric connection, and the heating partition board component is directly pulled out when being removed, so that the heating partition board component is quite convenient to detach and mount; the seal slit can play a sealing role to prevent the inside of the connector assembly from being contaminated.

As a preferable aspect of the present utility model, the separator is a metal plate; the conductive terminal is a lotus terminal, and a spring collar for holding the N-pole guide rod, the L-pole guide rod and the E-pole guide rod tightly is sleeved at a terminal opening of the conductive terminal; the stability of connection of the N pole leading rod, the L pole leading rod and the E pole leading rod with the conductive terminal is enhanced.

As a preferred aspect of the present utility model, the connector assembly is assembled at one inner cavity plate constituting the cooking cavity, the connector assembly is located outside the cooking cavity and the soft rubber pad of the connector assembly is exposed in the cooking cavity; in the present technique, the connector assembly is positioned outside the cooking chamber for easier routing.

As a preferable scheme of the utility model, at least one surface of the partition board is concavely arranged, and one concave surface of the partition board can be used as a slag receiving disc in the technology.

As a preferred aspect of the present utility model, the heating assembly includes: the air frying component positioned at the top of the cooking cavity and the heating tube group positioned at the bottom of the cooking cavity can execute the air frying function and the baking function, and are suitable for cooking different food materials by different methods.

As a preferable scheme of the utility model, the cooking cavity and the sub-cavity can be adaptively placed into the food bracket; the food support in the technology supports food materials, and the food support can be of various types.

The other beneficial technical effects of the utility model are embodied in the specific embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic cross-sectional view of a multi-functional air fryer without a heating baffle assembly of the present utility model;

FIG. 2 is a schematic view of a first construction of a heating baffle assembly of the multi-functional air fryer in accordance with the present utility model;

FIG. 3 is a schematic cross-sectional view of a heating baffle assembly of a first construction installed in a multi-functional air fryer oven of the present utility model;

FIG. 4 is a schematic partial cross-sectional view of a connector assembly of the multi-functional air fryer of the present utility model;

FIG. 5 is a schematic cross-sectional view of the connection of the multi-functional air fryer heating baffle assembly with the connector assembly of the present utility model;

FIG. 6 is a schematic view of a heating baffle assembly, heating assembly and food rack in a multi-functional air fryer in accordance with the present utility model;

FIG. 7 is a schematic view of the bottom surface angle of a second configuration of a heating baffle assembly of the multi-functional air fryer in accordance with the present utility model;

FIG. 8 is a schematic top view of a second configuration of a heating baffle assembly of the multi-functional air fryer in accordance with the present utility model;

FIG. 9 is a schematic cross-sectional view of a heating baffle assembly of a second construction installed in a multi-functional air fryer oven of the present utility model;

FIG. 10 is a schematic top view of a third configuration of a heating baffle assembly of the multi-functional air fryer in accordance with the present utility model;

FIG. 11 is a schematic view of the bottom surface angle of a third configuration of a heating baffle assembly in a multi-functional air fryer in accordance with the present utility model;

FIG. 12 is a schematic cross-sectional view of a third configuration of a heating baffle assembly of the present utility model installed in a multi-functional air fryer;

reference numerals illustrate:

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only the structures which are relevant to the utility model.

Referring to fig. 1-12, the multifunctional air fryer is shown, and comprises a machine body 100, wherein a cooking cavity 101 is formed in the machine body 100, the cooking cavity 101 is provided with an inlet, an organic door 110 is arranged at the inlet, a heating component 200 is arranged on the machine body 100, the heating component 200 acts on the cooking cavity 101, and food materials are placed in the cooking cavity 101 for cooking.

In order to divide the cooking cavity 101 into a plurality of small-volume cavities, a heating partition board assembly 300 is configured, and the heating partition board assembly 300 is detachably installed in the cooking cavity 101 to divide the cooking cavity 101 and form a sub-cavity 102;

as shown in fig. 2, the heat generating partition plate assembly 300 includes: a partition 310, a heating tube 320 fitted at the partition 310, and an electrical connection portion 330; as shown in fig. 3, the cooking cavity 101 is connected with a connector assembly 400, the heating partition plate assembly 300 is inserted into the cooking cavity 101, the electrical connection portion 330 is electrically connected with the connector assembly 400, and in use, the heating assembly 200 cooperates with the heating tube 320 to act on the sub-cavity 102.

Specifically, the specific structure of the machine body 100 is not limited in this embodiment, the machine body 100 is provided with at least one group of heating partition plate assemblies 300, and the heating partition plate assemblies 300 are horizontally installed in the cooking cavity 101 to divide the cooking cavity 101 into two sub-cavities 102 distributed up and down;

alternatively, the number of the heat generating barrier assemblies 300 may be increased, and the cooking chamber 101 may be divided into three sub-chambers distributed up and down, as in the case where two sets of heat generating barrier assemblies 300 are provided.

When the heating plate is used, the cooking cavity 101 can be directly used for cooking food materials when cooking food materials with large volume or large amount, the heating assembly 200 is matched for cooking food materials, the heating baffle assembly 300 can be installed when cooking food materials with small amount, and the food materials are placed into the sub-cavity 102 of the upper area or the sub-cavity 102 of the lower area, and the heating assembly 200 and the heating tube 320 are matched for cooking food materials.

It should be noted that, the heating tube 320 and the heating assembly 200 may be used simultaneously or independently according to need.

Further, the heat generating pipe 320 may be mounted at the partition 310 by means of a damascene connection, a welding connection, a press connection, a fusion connection, a rivet connection, etc.

In one embodiment, as shown in fig. 2, 5 and 6, a first structure of the heat-generating baffle assembly 300 is: the heating tube 320 is disposed at the middle position of the thickness of the partition plate 310, which can be understood that the heating tube 320 is embedded in the partition plate 310, and the heating tube 320 is partially protruded from the upper surface and the lower surface of the partition plate 310, so that the upper sub-cavity 102 and the lower sub-cavity 102 can be heated by the heating tube 320 at the same time during use.

Further, the upper surface of the partition 310 may be provided as a concave arrangement, and may be used as a slag receiving plate at the same time.

In one embodiment, as shown in fig. 7-8, a second configuration of the heat generating baffle assembly 300 is: one surface of the partition 310 is provided with a heating tube 320. The heating barrier assembly 300 has the heating tubes 320 mounted on the lower surface of the barrier 310, the heating tubes 320 being located approximately at the middle of the barrier 310, and heat being uniformly transferred to the barrier 310; when in use, the partition board 310 can be positively and negatively installed in the cooking cavity 101, as shown in fig. 9, the partition board 310 is positively installed in the cooking cavity 101, the heating pipe 320 faces downwards, the sub-cavity 102 in the lower area directly heats and toasts food through the heating pipe 320, and the sub-cavity 102 in the upper area toasts food through the action of heat radiation;

if the partition 310 is reversely installed in the cooking cavity 101, the heat pipe 320 is upward, the sub-cavity 102 of the upper region directly heats the baked food through the heat pipe 320, and the sub-cavity 102 of the lower region bakes the food through the heat radiation.

Further, the upper surface of the partition 310 may be designed to be a smooth surface or a textured surface, the heating tube 320 faces downward after being installed, and the upper surface of the partition 310 may be used for placing food for frying and roasting;

alternatively, the upper surface of the partition 310 may be concavely formed, and may be used as a slag receiving plate.

In one embodiment, as shown in fig. 10-11, a third structure of the heat generating partition assembly 300 is provided, and heat generating tubes 320 are mounted on both the upper and lower surfaces of the partition 310. As shown in fig. 12, after the partition 310 is installed, the two heat generating tubes 320 correspond to the upper and lower sub-chambers 102, respectively.

Similarly, the upper surface of the partition 310 is provided to be concave, and may be used as a slag receiving plate.

Alternatively, in the third construction, the heating pipes 320 provided on the upper and lower surfaces of the partition 310 may be operated individually or simultaneously by the program setting.

In the three structural modes of the heating partition board assembly 300, the heating pipes 320 are generally rectangular and distributed at the middle position of the partition board 310, so that heat is conveniently transferred to the partition board 310, and meanwhile, the middle position of the sub-containing cavity 102 is also convenient for baking food materials.

In one embodiment, a sealing ring 311 is disposed at the edge of the partition 310, a supporting structure for supporting the partition 310 is disposed in the cooking cavity 101, and the sealing ring 311 contacts with the inner wall of the cooking cavity 101 to seal and separate the adjacent sub-cavities 102.

The supporting structure can be a supporting groove, a supporting sheet and the like, and can play a role of edge support; the sealing ring 311 is made of high temperature resistant and aging resistant materials.

In one embodiment, as shown in fig. 2, the electrical connection part 330 includes: an N-pole lead bar 331 and an L-pole lead bar 332 connected to both ends of the heating pipe 320, and an E-pole lead bar 333 connected to the separator 310;

as shown in fig. 4, the connector assembly 400 includes: the connector cover 410, the base 420, the conductive terminal 430 and the soft rubber pad 440, wherein the conductive terminal 430 is assembled on the base 420, the soft rubber pad 440 is installed on the end surface of the base 420, a sealing notch 441 is arranged at the soft rubber pad 440, and the N-pole lead 331, the L-pole lead 332 and the E-pole lead 333 of the electrical connection portion 330 are electrically connected with the conductive terminal 430 through the sealing notch 441;

as shown in fig. 2, the N-pole lead 331, the L-pole lead 332 and the E-pole lead 333 of the electrical connection portion 330 face the same direction, and as shown in fig. 3, the partition 310 is pushed into the cooking cavity 101 from right to left, and the electrical connection portion 330 and the connector assembly 400 are plugged after being pushed in.

The heat generating separator assemblies 300 of the first and second structures are employed in fig. 1 and 9, respectively, and thus the electrical connection portions 330 and the connector assemblies 400 are each designed as a set.

As shown in fig. 10 and 12, the heat generating separator assembly 300 of the third structure is employed, and thus the electric connection part 330 and the connector assembly 400 are respectively designed as two groups.

The assembly can be completed by adopting a simple plugging mode.

Optionally, the cooking cavity 101 may be provided with a supporting groove as a supporting structure for supporting the partition board 310, so that the supporting groove also plays a role in guiding and aligning during installation, the partition board 310 is pushed along the groove, and after the partition board 310 is pushed completely, the electrical connection part 330 can be correctly connected with the connector assembly 400.

Further, the separator 310 is a metal plate; the conductive terminal 430 is a lotus terminal, a spring collar 431 for tightly holding the N pole guide bar 331, the L pole guide bar 332 and the E pole guide bar 333 is sleeved at the terminal opening of the conductive terminal 430, and the conductive terminal 430 is tightly held by the spring collar 431, so as to prevent the power of the heating tube 320 from being affected by poor contact.

Further, the connector assembly 400 is assembled at one inner cavity plate constituting the cooking cavity 101, the connector assembly 400 is located outside the cooking cavity 101 and the soft rubber pad 440 of the connector assembly 400 is exposed at the cooking cavity 101, specifically, the connector assembly 400 is assembled at the inner cavity plate of the cooking cavity 101 opposite to the door 110, and the connector assembly 400 is hidden between the inner cavity plate and the housing of the machine body 100, so as to facilitate wiring.

Further, in the connector assembly 400, the connector cover 410, the base 420, and the soft rubber pad 440 may be made of an insulating material resistant to temperatures of 150 ℃ or more.

In one embodiment, the heating assembly 200 includes: the air frying assembly 210 at the top of the cooking chamber 101 and the heat generating tube set 220 at the bottom of the cooking chamber 101, the cooking chamber 101 and the sub-chamber 102 may be adapted to receive the food rack 500 therein.

As shown in fig. 1 and 6, the air fryer assembly 210 includes: the electric heating device comprises a motor 211, a cooling fan 212, a hot fan 213 and an upper heating pipe 214, wherein the upper heating pipe 214 is positioned below the hot fan 213, and the motor 211 drives the cooling fan 212 and the hot fan 213 to rotate at the same time; similar to the principle of the prior art air fryer, the cooling fan 212 plays a role in heat dissipation, the hot air fan 213 pushes air flow to take away heat of the upper heating pipe 214 and blow into the cooking cavity 101 for performing the air frying function.

The heating tube set 220 is composed of two lower heating tubes, and the heating tubes heat and bake food.

As shown in fig. 6, the rack 500 of the present embodiment is designed, and of course, food racks of different specifications such as frying pan and frying basket can be provided, and food racks of different specifications can be selected for use when different food materials are cooked with different functions.

Further, the main body 100 should be provided with a control system which can control the operation of the air frying assembly 210, the heating tube group 220 and the heating tube 320 of the heating partition plate assembly 300, and the three can be operated simultaneously, independently and cooperatively;

for example, without the heat-generating baffle assembly 300, the cooking chamber 101 is used to cook food, either the air frying assembly 210, the heat-generating tube set 220, or both;

for another example, after installing the heat generating partition plate assembly 300:

the sub-cavity 102 of the upper region is used for cooking food materials, and the air frying component 210 alone or the heating tube 320 of the heating partition board component 300 alone can be used for cooking food materials, or the air frying component and the heating partition board component can be used simultaneously;

the lower sub-cavity 102 is used for cooking food materials, and the heating tube group 220 or the heating tube 320 of the heating partition plate assembly 300 can be used alone or simultaneously;

simultaneously, the sub-cavities 102 and 102 in the upper and lower areas are used for cooking food, so that the air frying component 210, the heating tube group 220 and the heating tube 320 of the heating partition board component 300 can be controlled to operate simultaneously;

if the heating partition plate assembly 300 has the heating tubes 320 mounted on both the upper and lower surfaces of the partition plate 320, the system may also set and control the heating tubes 320 on the upper and lower surfaces to operate independently.

Further, the heating assembly 200 and the heating tube 320 are designed with different powers, the upper heating tube 214 is designed with power of 200W-700W, the lower heating tube is designed with power of 200W-700W, and the heating tube 320 is designed with power of 200W-700W.

When the multifunctional air frying oven is used, a user selectively installs the heating partition plate assembly 300 according to the use requirement, selectively uses the food brackets 500 with different specifications and selectively controls the heating assembly 200 and the heating tube 320 of the heating partition plate assembly 300 to run, so that various cooking requirements can be met.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. 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 utility model 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 multifunctional air fryer oven with a cooking chamber (101) and a heating assembly (200) acting in the cooking chamber (101), characterized in that: also comprises a heating baffle assembly (300); the heating partition plate assembly (300) is detachably arranged in the cooking cavity (101) to separate the cooking cavity (101) to form a sub-cavity (102); the heat generating partition plate assembly (300) includes: a separator (310), a heat-generating tube (320) mounted at the separator (310), and an electrical connection portion (330); the cooking cavity (101) is connected with a connector assembly (400), the heating partition plate assembly (300) is inserted into the cooking cavity (101), the electric connection part (330) is electrically connected with the connector assembly (400), and the heating assembly (200) and the heating tube (320) act on the sub-cavity (102).

2. The multi-functional air fryer according to claim 1, wherein: at least one surface of the partition plate (310) is provided with a heating tube (320).

3. The multi-functional air fryer according to claim 1, wherein: the heating tube (320) is arranged at the middle position of the thickness of the partition plate (310).

4. The multi-functional air fryer according to claim 1, wherein: a sealing ring (311) is arranged at the edge of the partition plate (310); a support structure for supporting the partition plate (310) is arranged in the cooking cavity (101); the sealing ring (311) is contacted with the inner wall of the cooking cavity (101) to separate the adjacent sub-cavities (102).

5. The multi-purpose air fryer according to any one of claims 1-4, wherein: the electrical connection (330) comprises: the N pole guide rods and the L pole guide rods are connected to two ends of the heating pipe (320), and the E pole guide rods are connected to the partition plate (310);

the connector assembly (400) includes: connector lid (410), base (420), conductive terminal (430) and soft rubber pad (440), conductive terminal (430) are assembled in base (420), and soft rubber pad (440) are installed in base (420) terminal surface, and soft rubber pad (440) department is provided with sealed incision (441), and the N utmost point of electrical connection portion (330) draws excellent, L utmost point and E utmost point to draw excellent and pass sealed incision (441) and conductive terminal (430) electric connection.

6. The multi-functional air fryer according to claim 5, wherein: the separator (310) is a metal plate; the conductive terminal (430) is a lotus terminal, and a spring collar (431) for holding the N pole guide rod, the L pole guide rod and the E pole guide rod tightly is sleeved at the terminal opening of the conductive terminal (430).

7. The multi-functional air fryer according to claim 6, wherein: the connector assembly (400) is assembled at one inner cavity plate forming the cooking cavity (101), the connector assembly (400) is positioned outside the cooking cavity (101), and a soft rubber pad (440) of the connector assembly (400) is exposed in the cooking cavity (101).

8. A multi-functional air fryer according to claim 2 or 3, wherein: at least one surface of the partition plate (310) is concavely arranged.

9. The multi-functional air fryer according to claim 5, wherein: the heating assembly (200) comprises: an air frying assembly (210) positioned at the top of the cooking chamber (101) and a heating tube group (220) positioned at the bottom of the cooking chamber (101).

10. The multi-functional air fryer according to claim 8, wherein: the cooking cavity (101) and the sub-cavity (102) can be adaptively placed into the food bracket (500).