CN112336216A

CN112336216A - Air fryer

Info

Publication number: CN112336216A
Application number: CN202011230493.XA
Authority: CN
Inventors: 饶力; 张西洋; 郭鑫
Original assignee: Individual
Current assignee: Ningbo Jumeng Intelligent Technology Co Ltd
Priority date: 2019-11-08
Filing date: 2020-11-06
Publication date: 2021-02-09
Anticipated expiration: 2040-11-06
Also published as: CN112842093B; CN112294135A; CN112294135B; CN110664270A; CN112842093A; CN112336216B

Abstract

The invention relates to an air fryer, which comprises a machine body, a pot body and an electric heating device, wherein a cooking cavity is formed in the machine body; the novel cooking machine is characterized in that an integrated furnace chamber inner container is arranged in the machine body, a first containing cavity and a second containing cavity are formed in the integrated furnace chamber inner container, the first containing cavity and the second containing cavity can contain a first pot body and a second pot body respectively, the first pot body and the second pot body are arranged in the two containing cavities respectively, the front side wall of the first containing cavity and the front side wall of the second containing cavity are provided with openings for the two pot bodies to come in and go out respectively, the novel cooking machine further comprises a first reflecting disc and a second reflecting disc, and the first cavity and the second cavity form independent cooking cavities with the first reflecting disc and the second reflecting disc respectively. The integrated cooker chamber inner container structure has the advantages that the material cost is saved, the assembly efficiency is improved, the two independent first pot bodies and the two independent second pot bodies are arranged, the cooking operation can be carried out simultaneously, the cooking can be carried out independently, and various foods can be made.

Description

Air fryer

Technical Field

The invention relates to the technical field of kitchen equipment, in particular to an air fryer.

Background

The air fryer is a novel household appliance for frying food by utilizing a high-speed and high-temperature air circulation technology, the oil of the manufactured food can be reduced by 80 percent compared with that of the traditional electric fryer, and the air fryer is easy to clean in daily use, is safe and economical and is favored by people.

Current air is fried pot generally includes the organism, is formed with the culinary art cavity in the organism, is equipped with in the organism and can send into the hot-blast of high-temperature air to culinary art cavity inside, is equipped with the pot body that is used for holding food in the culinary art cavity, and the high-temperature hot-blast that utilizes hot-blast during operation to produce heats the edible material in the pot, and hot-air and food fully contact utilize the food surface to lose moisture fast in the twinkling of an eye, or in addition the grease that food self produced, make the food surface form crisp taste, present by the fried effect. The concrete structure can be found in the invention patent of patent application No. CN201710570933.8 (publication No. CN107233007A) of an air fryer with a simple assembly structure.

However, in the above air fryer, only one pot body is provided in the cooking cavity, and two different foods or two different types of cooking procedures cannot be simultaneously cooked.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art and provides an air fryer which can simultaneously carry out two cooking operations and is simple and convenient to assemble.

The technical scheme adopted by the invention for solving the technical problems is as follows: an air fryer comprises a machine body, a pot body and an electric heating device, wherein a cooking cavity is formed in the machine body, the pot body can enter and exit the cooking cavity, the electric heating device is arranged in the machine body and positioned above the cooking cavity, and the pot body comprises a first pot body and a second pot body; the cooking cavity of organism is equipped with integral type furnace chamber inner bag, is formed with the first appearance chamber and the second appearance chamber that can hold the first pot body and the second pot body respectively on this integral type furnace chamber inner bag, the first pot body sets up at the first intracavity that holds, the second pot body sets up holds the intracavity at the second, and the front portion lateral wall that the first appearance chamber and second held the chamber is equipped with the opening that supplies the first pot body and the second pot body to come in and go out respectively. This kind of design of integral type furnace chamber inner bag structure for the air is fried a pot compact structure, and two pot bodies are placed respectively in respective appearance chamber, and the wholeness is good, has kept the uniformity of product structure, and the outward appearance is pleasing to the eye, and simultaneously, two pot bodies correspond different appearance chambeies, make the two can the autonomous working, also can the simultaneous working, can not influence respective performance, can be with the difference of the program setting of the two, thereby can process different food simultaneously, also can only start a work, thereby the multi-functional of this air is fried a pot has been realized.

As an improvement, the upper port of the first cavity and the upper port of the second cavity are respectively provided with a first reflecting disc buckled on the upper port and a second reflecting disc buckled on the upper port, the number of the electric heating devices is two, the two electric heating devices are respectively arranged below the first reflecting disc and the second reflecting disc, and the first reflecting disc and the second reflecting disc respectively form a cooking cavity with the first cavity and the second cavity. This scheme makes the reflecting disc and the chamber and the pot body that correspond form independent airtight or approximate inclosed culinary art chamber, has guaranteed that the pot body is put into and has been held the chamber after, and the heat of the abundant absorption electric heating device of the internal food of pot has improved heating efficiency, and the two simultaneous working also can not influence each other.

And the first reflecting disc and the second reflecting disc are connected with each other through a connecting plate, so that the strength of the reflecting discs is enhanced, and the relative independence of the upper space and the lower space of the machine body is ensured.

And the first reflecting disc, the second reflecting disc and the connecting plate are of an integrated structure, and the structure is simple and easy to process.

And the side wall of the opening of the first cavity and the adjacent side wall of the opening of the second cavity are provided with gaps, the gaps form cold air channels, cold air passes through the cold air channels between the two cavities to cool the two cavities, so that the temperature of the cavities is not too high, and the working environment of the machine body is ensured.

And the side wall of the opening of the first cavity and the adjacent side wall of the opening of the second cavity are connected to form an integral structure, so that the front side wall of the cold air duct is formed, a complete air duct is formed, cold air can be guided to circulate along the air duct, and the cooling effect is better.

And the upper end port of the first cavity and the adjacent upper end port of the second cavity are connected into a whole to form a top wall of the cold air duct, and the top wall is provided with a cold air circulation hole, so that cold air coming from an air inlet at the upper part of the machine body can flow into the cold air duct between the two cavities at the lower part of the machine body conveniently, the outer parts of the two cavities are cooled, and the deformation of the outer parts of the two cavities due to overhigh temperature is avoided.

And a cold air channel is formed between the inner container of the integrated furnace chamber and the inner wall of the machine body and is communicated with the cold air channel, so that heat in the machine body is further discharged through the fixed cold air channel, the machine body is prevented from deforming due to high temperature, and the machine body is prevented from hurting people.

In another improvement, the machine body is also provided with:

the first hot air blower is opposite to the first pot body; the second air heater is opposite to the second pot body; the first motor is connected with the first air heater and can drive the first air heater to rotate; the second motor is connected with the second air heater and can drive the second air heater to rotate; two motor frames of the first motor and the second motor are respectively installed and are respectively arranged above the first reflecting disc and the second reflecting disc, so that the heat generated by the electric heating device by the air heater is blown to the pot bodies in the two containing cavities, the food processing efficiency is improved, and the work of the two motors can not be influenced.

And the two motor frames are connected into a whole, a cold air outlet is arranged on each motor frame and is positioned between the first motor and the second motor, and the cold air outlets are communicated with a cold air duct on the inner container of the integrated furnace chamber, so that the heat dissipation of the motors is ensured, and the motors cannot be abnormal due to overhigh temperature rise.

Compared with the prior art, the invention has the advantages that: the two independent first pot bodies and the two independent second pot bodies are correspondingly arranged in the two containing cavities, so that two cooking operations can be carried out simultaneously, and the two independent first pot bodies and the two independent second pot bodies can also work independently, thereby processing different foods, improving the heating efficiency and realizing the multifunction of the air fryer; and an integrated furnace chamber liner structure is adopted, so that the material cost is saved, and the assembly efficiency is improved.

Drawings

FIG. 1 is a first embodiment of an air fryer in accordance with the present invention.

FIG. 2 is a sectional view of an air fryer in accordance with an embodiment of the present invention.

FIG. 3 is a schematic structural view of an integrated furnace chamber liner according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of an integrated furnace chamber liner at another viewing angle according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of the first pot and the second pot in the first embodiment of the present invention;

fig. 6 is a schematic structural view of the first pot and the second pot assembled with the integrated oven cavity liner in the first embodiment of the present invention.

Fig. 7 is a schematic perspective view of a motor frame according to a first embodiment of the invention.

FIG. 8 is a schematic perspective view of an integrated heat shield according to an embodiment of the present invention;

FIG. 9 is a schematic perspective view of an integrated reflective plate according to an embodiment of the present invention;

fig. 10 is a schematic perspective view of an air guide frame according to an embodiment of the present invention;

FIG. 11 is a second structural diagram of the integrated inner container of the oven cavity according to the embodiment of the present invention;

FIG. 12 is a third structural diagram of the integrated inner container of the oven cavity according to the embodiment of the present invention;

FIG. 13 is a perspective cross-sectional view of an air fryer in accordance with a second embodiment of the present invention;

FIG. 14 is a perspective view of the air fryer in accordance with the second embodiment of the present invention;

FIG. 15 is a cross-sectional view of an air fryer in accordance with a third embodiment of the present invention;

FIG. 16 is a schematic structural view of a third thermal insulation panel according to an embodiment of the present invention;

FIG. 17 is a schematic structural diagram of an integrated motor mount according to a third embodiment of the present invention;

FIG. 18 is a schematic structural diagram of a second reflective plate according to a third embodiment of the present invention;

fig. 19 is a schematic structural diagram of a third reflective disk according to a third embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

The first embodiment is as follows:

the air fryer shown in fig. 1 and 2 comprises a machine body 1 with a cooking cavity formed inside, a pot body capable of entering and exiting the cooking cavity, and an electric heating device arranged in the machine body 1 and above the cooking cavity, wherein the pot body comprises a first pot body 21 and a second pot body 22, and the first pot body 21 and the second pot body 22 can enter and be placed in the cooking cavity at the same time; the electric heating device comprises a first electric heating tube 101 positioned above the first pot body 21 and a second electric heating tube 102 positioned above the second pot body 22.

An integrated furnace chamber inner container 13 is arranged in a cooking chamber of the machine body 1, a first containing chamber 13a and a second containing chamber 13b which can respectively contain a first pot body 21 and a second pot body 22 are formed on the integrated furnace chamber inner container 13, the first pot body 21 is arranged in the first containing chamber 13a, and the second pot body 22 is arranged in the second containing chamber 13 b. The integrated furnace chamber liner 13 can accommodate two pan bodies at the same time, so that the material cost is saved, and the assembly efficiency is improved, as shown in fig. 3.

A cold air duct 13c between the first cavity 13a and the second cavity 13b is formed on the integrated furnace chamber inner container 13, a cold air circulation hole 13d communicated with the cold air duct 13c is formed in the integrated furnace chamber inner container 13 between the first cavity 13a and the second cavity 13b, a cold air passage 2A is formed between the integrated furnace chamber inner container 13 and the inner wall of the machine body, and the cold air duct 13c is communicated with the cold air passage 2A, as shown in fig. 2 and 4. The cold air duct 13c and the cold air channel 2A are arranged, so that the inner wall of the machine body can be cooled, and the deformation caused by overhigh temperature can be avoided.

A first guide surface 131 which is obliquely arranged at the opening 137 of the first accommodating cavity 13a is arranged, the first pot body 21 is connected with a first pot body bracket 211, and a first inclined surface 211a which can be matched with the first guide surface 131 for guiding is arranged on the first pot body bracket 211; the second cavity 13b is provided with a second guide surface 132 arranged obliquely at the opening 138, the second pan body 22 is connected with a second pan body bracket 221, and the second pan body bracket 221 is provided with a second inclined surface 221a capable of being matched with the second guide surface 132 for guiding; the first guide surface 131 and the second guide surface 132 form a V-shaped structure on the integrated furnace chamber inner container 13, as shown in fig. 3, 5 and 6. The outer side surface of the first pan body bracket 211 is connected with a first handle 212, and the outer side surface of the second pan body bracket 221 is connected with a second handle 222; after the first pan body bracket 211 drives the first pan body 21 to enter the first accommodating cavity 13a, and the second pan body bracket 221 drives the first pan body 22 to enter the first accommodating cavity 13b, the outer side surface of the first pan body bracket 211 is flush with the outer side surface of the second pan body bracket 221, as shown in fig. 1, 5 and 6. Through the cooperation of V-arrangement spigot surface between integral type furnace chamber inner bag and two pot body supports, can guarantee like this that two pot bodies are when the appearance chamber of pushing integral type furnace chamber inner bag, the dead phenomenon of slope card can not appear, because there is V-arrangement guide structure's existence when two pot bodies push simultaneously again in addition, the mutual collision friction phenomenon neither can appear, can also guarantee that first pot body support 211 lateral surface keeps flushing with second pot body support 221 lateral surface, promote to use and experience, it is pleasing to the eye to improve the appearance.

In addition, the machine body 1 is provided with:

a first hot air blower 31 disposed above the first electric heating tube 101 and opposite to the first pan body 21;

a second hot air blower 32 disposed above the second electrothermal tube 102 and opposite to the second pot 22;

a first reflection plate 71 disposed above the first air heater 31;

a second reflective tray 72 disposed above the second hot air blower 32;

an integrated heat shield 8 disposed above the first and

second reflection disks

71 and 72;

a first air cooler 61 disposed above the integrated heat insulating board 8;

a second air-cooler 62 disposed above the integrated heat insulating board 8;

a motor mount 5 disposed above the first and second air-

coolers

61 and 62;

a first motor 41 and a second motor 42 mounted on the motor frame 5.

A first perforation 51 and a second perforation 52 are arranged on the motor frame 5, after an output shaft of the first motor 41 passes through the first perforation 51, the first hot air blower 31 and the first cold air blower 61 are connected in parallel on the output shaft of the first motor 41; after the output shaft of the second motor 41 passes through the second through hole 52, the second hot air blower 32 and the second cold air blower 62 are connected in parallel to the output shaft of the second motor 42; of course, the integrated heat insulating plate 8 and the first reflecting plate 71 are provided with mounting holes for allowing the output shaft of the first motor 41 to pass through, and the integrated heat insulating plate 8 and the second reflecting plate 72 are provided with mounting holes for allowing the output shaft of the second motor 42 to pass through. A cold air duct groove 53 which is downward concave and U-shaped or V-shaped is formed in the middle of the motor frame 5, a cold air through hole 53a is formed in the side wall of the cold air duct groove 53, and a cold air outlet 53b is formed in the bottom of the cold air duct groove 53, as shown in fig. 7; a cold air channel 2A is arranged between the first pot body 21 and the second pot body 22 and the inner wall of the machine body, and a cold air outlet 53b at the bottom of the cold air channel groove 53 is communicated with the cold air channel 2A. The cold air through hole 53a on one side of the cold air duct slot 53 is provided at a position opposite to the first cold air blower 61, and the cold air through hole 53a on the other side of the cold air duct slot is provided at a position opposite to the second cold air blower 62. The first reflection plate 71 and the second reflection plate 72 are connected to each other by a connection plate 73, and the first reflection plate 71, the second reflection plate 72 and the connection plate 73 are connected to each other in a one-piece structure to form the integrated reflection plate 7, as shown in fig. 9. A vent 73a is arranged on a connecting plate 73 connecting the first reflecting disc 71 and the second reflecting disc 72, the position of the vent 73a corresponds to the cold air outlet 53b at the bottom of the cold air duct groove on the motor frame, and the vent 73a is communicated with the cold air duct 2A between the first pot body and the second pot body. The integrated heat shield 8 has an opening 81 in the middle, as shown in FIG. 8. The cold air duct slot 53 of the motor frame 5 passes through the opening 81 and is opposite to the connecting plate 73 connecting the first reflecting plate 71 and the second reflecting plate 72. The side wall of the cold air duct groove 53 of the motor frame 5 is tightly attached to the edge of the opening 81 in the middle of the integrated heat insulation plate 8, and the position of the cold air through hole 53a in the side wall of the cold air duct groove of the motor frame is higher than that of the integrated heat insulation plate 8. The edge of the periphery of the motor frame 5 is fixedly connected with the inner wall of the machine body 1, the periphery of the integrated reflecting disc 7 is also fixedly connected with the inner wall of the machine body 1, and the periphery of the integrated heat insulation plate 8 is fixed on the integrated reflecting disc 7. In this embodiment, an air guide frame 9 is disposed above the motor frame 5 at a position corresponding to the cool air duct groove, and the air guide frame 9 has a U-shaped or V-shaped air guide surface 91 that can be inserted into the cool air duct groove, as shown in fig. 10.

When the air fryer works, the two hot air fans and the two cold air fans start to rotate at a high speed under the driving of the two motors; on one hand, the two hot air fans respectively blow heat generated by the two electric heating tubes into the two pot bodies to heat food in the two pot bodies; another convenience, the outside cold air gets into between organism and the motor frame through the cold wind entry above the organism, because also open the cold wind entry on the motor frame, cold wind further carries out the cold wind intracavity between motor frame and the integrative heat insulating board through the cold wind entry on the motor frame, under two cold wind blower high-speed rotations, cold air gets into cold wind channel 53 through the cold wind hole 53a of cold wind channel 53 on the motor frame 5, further get into the cold wind channel 13c of integral type furnace chamber inner bag 13 through the cold wind export 53b of cold wind channel 53 bottom and the vent 73a on the connecting plate 73, and in getting into the cold wind channel 2A that forms between integral type furnace chamber inner bag 13 and the organism inner wall, thereby carry out cooling heat dissipation and temperature reduction to the organism inner wall, avoid the organism because of the high temperature deformation.

It can be understood, as shown in fig. 11, that a cold air channel 13c is formed on the integrated oven cavity inner container 13 between the first receiving cavity 13a and the second receiving cavity 13b, the cold air channel 13c is formed by a gap between the side wall 133 at the opening 137 of the first receiving cavity 13a and the adjacent side wall 134 at the opening 138 of the second receiving cavity 13b, where the side wall 133 and the side wall 134 are not connected, the outer surfaces of the first pan body bracket 211 on the first pan body 21 and the second pan body bracket 221 on the second pan body 22 are flush, and the adjacent positions are directly butted to block the front side of the gap, and the cold air channel 13c is formed by the first pan body bracket 211, the second pan body bracket 221, the side wall 133 and the side wall 134 together, so as to achieve the cooling and heat dissipation of the machine body, and avoid the deformation of the machine body due to an excessive temperature, which is within the protection scope of the present invention, this is not exemplified.

Of course, as shown in fig. 12, the side wall 133 at the opening 137 of the first cavity 13a and the adjacent side wall 134 at the opening 138 of the second cavity 13b are connected to form an integral structure, so as to form the front side wall 13e of the cool air duct 13c, the upper port 135 of the first cavity 13a and the adjacent upper port 136 of the second cavity 13b are connected to form an integral structure, so as to form the top wall 13f of the cool air duct 13c, the vent hole 13d is not arranged on the top wall 13f of the cavity, but the rear end of the cool air duct 13c is opened, that is, the rear side walls of the first cavity 13a and the second cavity 13b are not connected to form an open shape, so as to ensure the communication between the cool air duct 13c and the cool air duct 2A and the cool air outlet 53 b. The problem of heat dissipation cooling in the organism has also been solved, and can in time go the hot-blast discharge on organism upper portion, separate the interior hot-blast of the pot body in the lower part moreover, just can get into organism upper portion through turning round, the heat can not produce harmful effects to motor, control panel (not shown in the figure) that lie in organism upper portion to the operating temperature of the electrical components on motor and the control panel of during operation has been guaranteed, excellent performance. Such variations are within the scope of the invention and are not to be regarded as an example.

Example two:

the difference between the first embodiment and the second embodiment is that the structures of the motor frame, the reflecting disc and the heat insulation plate are different, and the capacities of the first containing cavity, the second containing cavity, the first pot body and the second pot body are different.

The invention relates to an air fryer, which comprises a machine body 1, a pot body and an electric heating device, wherein a cooking cavity is formed in the machine body 1, the pot body can enter and exit the cooking cavity, the electric heating device is arranged in the machine body 1 and is positioned above the cooking cavity, the pot body comprises a first pot body 21 and a second pot body 22, and the first pot body 21 and the second pot body 22 can enter and are arranged in the cooking cavity at the same time; still be equipped with in the organism 1: a first cold air blower 61 and a second cold air blower 62, a first hot air blower 31 arranged above the electric heating device and opposite to the first pot body 21; a second hot air blower 32 arranged above the electric heating device and opposite to the second pot body 22; a first motor 41 connected to the first air heater 31 and capable of driving the first air heater to rotate; a second motor 42 connected to the second air heater 32 for driving the second air heater to rotate; the motor frame 5 of first motor 41 and second motor 42 is installed, be equipped with the cold wind export 53b that is located between two motors on the motor frame 5, be equipped with cold wind passageway 2A between first pot body and the second pot body 21 and the organism 1 inner wall, cold wind export 53b and cold wind passageway 2A intercommunication.

In this embodiment, as shown in fig. 13 and 14, the first receiving cavity 13a and the first pan body 21 and the second receiving cavity 13b which are prevented from being inconsistent in capacity and the second pan body 22 which is prevented from being inconsistent in capacity are described, and the widths and heights of the first receiving cavity 13a, the first pan body 21, the second receiving cavity 13b and the second pan body 22 are consistent, so as to ensure that the first receiving cavity 13a and the first pan body are placed in the respective receiving cavities, and the lengths of the first receiving cavity 13a and the first pan body are set to be longer than the lengths of the second receiving cavity and the second pan body, at this time, the power of the corresponding electric heating device above the first pan body may be larger than that of the electric heating device above the second pan body, so as to complete cooking of materials with different capacities. At this moment, the suitable position that cold wind export 53b on the motor frame 5 set up between first motor 41 and second motor 42 can, perhaps, it is better to set up 53b more being close to first motor, and do not set up the middle part at integrative motor frame 5, thereby guarantee the heat dissipation and the cooling of motor separately, and simultaneously, heat insulating board and reflecting disc also can be unanimous with pot body size, thereby guarantee to form inclosed or approximate inclosed culinary art region with the cooperation of the pot body, thereby improve culinary art efficiency, improve the culinary art effect.

Of course, the first cavity and the first pot body may be small, the second cavity and the second pot body may be large, and the power of the heating device may be the same, and this kind of scheme without departing from the essential change of the present invention is also within the protection scope of the present invention, and is not described herein again.

The rest of the structure and the beneficial effects of the air fryer in the embodiment are consistent with those of the embodiment, and are not described in detail herein.

Example three:

the difference between the embodiment and the first embodiment is that the structure of the cold air duct formed by the motor frame, the reflecting disc and the heat insulation board is different.

The air fryer disclosed by the invention is shown in figures 15-19 and comprises a machine body 1, a pot body and an electric heating device, wherein a cooking cavity is formed in the machine body 1, the pot body can enter and exit the cooking cavity, the electric heating device is arranged in the machine body 1 and is positioned above the cooking cavity, and the pot body comprises a first pot body 21 and a second pot body 22; the cooking cavity of the machine body 1 is internally provided with an integrated furnace chamber inner container 13, a first containing cavity 13a and a second containing cavity 13b which can respectively contain a first pot body 21 and a second pot body 22 are formed on the integrated furnace chamber inner container 13, the first pot body 21 is arranged in the first containing cavity 13a, the second pot body 22 is arranged in the second containing cavity 13b, and the front side wall of the first containing cavity 13a and the front side wall of the second containing cavity 13b are provided with a first opening 137 and a second opening 138 which are respectively used for the first pot body 21 and the second pot body 22 to come in and go out.

In this embodiment, as shown in fig. 15 and 16, the upper port 135 of the first receiving chamber 13a and the upper port 136 of the second receiving chamber 13b are respectively provided with a first reflective plate 71 fastened on the upper port 135 and a second reflective plate 72 fastened on the upper port 136, the two sets of electric heating devices are provided, the two sets of heating devices are respectively provided below the first reflective plate 71 and the second reflective plate 72, the first reflective plate 71 is fixed on the upper port 135 of the first receiving chamber 13a, the second reflective plate 72 is fixed on the upper port 136 of the second receiving chamber 13b, the two sets of heating devices are not connected, a vent 73a is formed by a gap between the two sets of heating devices, the first reflective plate 71 and the second reflective plate 72 respectively form 2 independent cooking chambers with the first receiving chamber 13a and the second receiving chamber 13b, the upper port 135 of the first receiving chamber 13a is not connected with the upper port 136 of the second receiving chamber 13b, and the gap between the two sets of heating devices forms only a side wall of the first opening 137 of the first receiving chamber 13a and a side wall of the second opening 138 of the second receiving chamber 13b The adjacent side walls are connected, the gap between the side wall of the first opening 137 and the adjacent side wall of the second opening 138 forms the cool air duct 13c, and the gap between the upper port 135 and the upper port 136 forms the cool air vent 13d of the cool air duct 13 c. Because the two cavities are not connected or only the front ends are connected, the heat of the two cavities can not be conducted and influenced, meanwhile, under the action of air heat insulation, after the two cavities are placed into the first pot body 21 and the second pot body 22, the heat generated by the first electric heating tube 101 can be circulated in the first reflecting disc 71 and the first pot body 21 under the blowing of the first hot air blower 31, and the heat generated by the second electric heating tube 102 can be circulated in the second reflecting disc 72 and the second pot body 22 under the blowing of the second hot air blower 32, so that efficient cooking can be carried out in the pot body.

In this embodiment, as shown in fig. 16, an integrated heat insulating plate 8 is provided above the first reflecting plate 71 and the second reflecting plate 72, a plurality of vent holes 82 are provided in the middle of the integrated heat insulating plate 8, and no opening is provided; as shown in fig. 17, the cold air outlet 53b is provided at the middle of the motor frame 5 above the integrated heat insulating board 8 without providing a cold air duct groove.

When the air fryer works, the two hot air fans and the two cold air fans start to rotate at a high speed under the driving of the two motors; on one hand, the two hot air fans respectively blow heat generated by the two electric heating tubes into the two pot bodies to heat food in the two pot bodies; another convenience, the outside cold air gets into between organism and the motor frame through the cold wind entry of organism top, because also open the cold wind entry on the motor frame, cold wind further carries out the cold wind intracavity between motor frame and the integrative heat insulating board through the cold wind entry on the motor frame, under two cold wind fan high-speed rotations, cold wind passes through the cold wind export 53b of motor frame 5 bottom, a plurality of ventilation holes 82 and the vent 73b between first reflecting disc 71 and the second reflecting disc 72 at heat insulating board 8 middle part get into the cold wind channel 13c of integral type furnace chamber inner bag 13, and in entering the cold wind passageway 2A that forms between integral type furnace chamber inner bag 13 and the organism inner wall, thereby carry out cooling heat dissipation cooling to the organism inner wall, avoid the organism to warp because of the high temperature. Therefore, the cold air entering the machine body from the cold air inlet above the machine body can cool the motor and the control panel in the machine body firstly, and then enters the cold air channel 2A through the cold air outlet 53b, the vent hole 82 and the vent hole 73a, so that the electric device motor and the control panel in the machine body are cooled, and meanwhile, the inner wall of the machine body is cooled, thereby ensuring the working environment of the machine and avoiding the deformation of the machine body caused by the influence of the hot air. The structure is simple, and the independent work of the parts is convenient, and the processing and the production of the accessories are also convenient. Both guaranteed the circulation of the hot-blast in first appearance chamber 13a and the second appearance chamber 13b, also be more convenient for thermal-insulated simultaneously, prevent that the heat from getting into first appearance chamber 13a and second appearance chamber 13b upper portion fast and to influencing motor operational environment, avoid the motor to influence the performance or stop work because of the temperature rise is too high, and this kind of structure has increaseed cold wind endless space simultaneously, is more convenient for dispel the heat.

Of course, it is understood that the first reflective plate 71 and the second reflective plate 72 can be connected as a single structure, as shown in fig. 18, and a large ventilation opening 73a is provided at the connection; alternatively, as shown in fig. 19, the first reflective plate 71 and the second reflective plate 72 may be connected by a connecting structure, and a large vent 73a is provided at the connection position, which is within the protection scope of the present invention without departing from the spirit of the present invention, and this is not exemplified here.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides an air fryer, is formed with organism (1) of culinary art chamber including inside, can pass in and out the pot body of culinary art chamber to and locate organism (1) in and be located the electric heating device of culinary art chamber top, its characterized in that: the pan body comprises a first pan body (21) and a second pan body (22); the utility model discloses a cooking machine, including organism (1), the culinary art intracavity of organism is equipped with integral type furnace chamber inner bag (13), is formed with first appearance chamber (13a) and the second appearance chamber (13b) that can hold the first pot body (21) and the second pot body (22) respectively on this integral type furnace chamber inner bag (13), first pot body (21) set up in first appearance chamber (13a), the second pot body (22) set up in second appearance chamber (13b), and the front portion lateral wall that first appearance chamber (13a) and second held chamber (13b) is equipped with the opening that supplies the first pot body (21) and the second pot body (22) to come in and go out respectively.

2. An air fryer according to claim 1, wherein: an upper port (135) of the first accommodating cavity (13a) and an upper port (136) of the second accommodating cavity (13b) are respectively provided with a first reflecting disc (71) buckled on the upper port (135) and a second reflecting disc (72) buckled on the upper port (136), the number of the electric heating devices is two, the two electric heating devices are respectively arranged below the first reflecting disc (71) and the second reflecting disc (72), and the first reflecting disc (71) and the second reflecting disc (72) respectively form cooking cavities with the first accommodating cavity (13a) and the second accommodating cavity (13 b).

3. An air fryer according to claim 2, wherein: the first reflection plate (71) and the second reflection plate (72) are connected to each other by a connection plate (73).

4. An air fryer according to claim 3, wherein: the first reflecting plate (71), the second reflecting plate (72) and the connecting plate (73) are of a one-piece structure.

5. An air fryer according to claim 2, wherein: a gap is formed between a side wall (133) at the opening of the first accommodating cavity (13a) and an adjacent side wall (134) at the opening of the second accommodating cavity (13b), and a cold air duct (13c) is formed in the gap.

6. An air fryer according to claim 5, wherein: the side wall (133) at the opening of the first cavity (13a) and the adjacent side wall (134) at the opening of the second cavity (13b) are connected to form an integral structure, so that the front side wall (13e) of the cold air duct (13c) is formed.

7. An air fryer according to claim 5, wherein: an upper port (135) of the first cavity (13a) and an adjacent upper port (136) of the second cavity (13b) are connected into a whole to form a top wall (13f) of the cold air duct (13c), and a cold air circulation hole (13d) is formed in the top wall (13 f).

8. An air fryer according to claim 5, wherein: a cold air channel (2A) is formed between the integrated furnace chamber liner (13) and the inner wall of the machine body, and a cold air channel (13c) is communicated with the cold air channel (2A).

9. An air fryer according to claim 2, wherein: still be equipped with in the organism:

a first hot air blower (31) opposite to the first pan body (21); a second hot air blower (32) opposite to the second pan body (22); a first motor (41) connected with the first hot air blower (31) and capable of driving the first hot air blower to rotate; a second motor (42) connected with the second hot air blower (32) and capable of driving the second hot air blower to rotate; two motor frames (5) respectively provided with a first motor (41) and a second motor (42), wherein the two motor frames (5) are respectively arranged above the first reflecting disc (71) and the second reflecting disc (72).

10. An air fryer according to claim 9, wherein: two motor framves (5) are connected as an organic whole, be equipped with cold wind export (53b) on motor frame (5), cold wind export (53b) are located between first motor (41) and second motor (42), and communicate with cold wind channel (13c) on integral type furnace chamber inner bag (13).