CN218922336U

CN218922336U - Baking device and cooking machine

Info

Publication number: CN218922336U
Application number: CN202223216412.8U
Authority: CN
Inventors: 杨宝斌
Original assignee: Zhejiang Shaoxing Supor Domestic Electrical Appliance Co Ltd
Current assignee: Zhejiang Shaoxing Supor Domestic Electrical Appliance Co Ltd
Priority date: 2022-11-30
Filing date: 2022-11-30
Publication date: 2023-04-28
Anticipated expiration: 2032-11-30

Abstract

The application provides a baking equipment and cooking machine. The baking device comprises: the shell assembly is provided with a baking cavity with an opening at the bottom end and an air duct arranged at one side of the baking cavity, and the side surface of the shell assembly is provided with an air hole for communicating the air duct with the baking cavity; the fan is arranged at one end of the air duct, which is far away from the baking cavity; the heating piece is arranged in the air duct and positioned between the fan and the baking cavity, and is used for heating the baking cavity; and the discharging assembly is arranged on the shell assembly and is used for opening or closing the opening. So, before food material whipping, toast the food material through baking device, only need whipping, smash the food material in cooking cup can to do not need long-time boiling food material, can shorten the time of cooking machine preparation food effectively.

Description

Baking device and cooking machine

Technical Field

The application relates to the field of food processing, in particular to a baking device and a cooking machine.

Background

With the increasing level of living of people, many different types of food processing machines appear on the market. When the existing food processor is used for preparing beverage foods, for example: the soymilk machine is used for preparing soymilk and mainly comprises two steps of crushing and boiling, wherein in the crushing step, a crushing blade rotates at a high speed to crush food materials and form raw soymilk with water; in the boiling step, the raw soybean milk is heated by a heating member to form cooked soybean milk for drinking. In the boiling process, in order to prevent overflow and paste bottom, high-power heating cannot be continuously performed, but only intermittent heating or low-power heating can be performed, so that pulping time is increased. Therefore, the existing food processor has the problems of long food making time, easy overflow and the like.

Disclosure of Invention

The purpose of this application is to provide a baking equipment and cooking machine, its food preparation time is short, is difficult to paste the end.

In one aspect, the present application provides a toasting device. The baking device comprises: the shell assembly is provided with a baking cavity with an opening at the bottom end and an air duct arranged at one side of the baking cavity, and the side surface of the shell assembly is provided with an air hole for communicating the air duct with the baking cavity; the fan is arranged at one end of the air duct, which is far away from the baking cavity; the heating piece is arranged in the air duct and positioned between the fan and the baking cavity, and is used for heating the baking cavity; and the discharging assembly is arranged on the shell assembly and is used for opening or closing the opening. The shell component is provided with the baking cavity, and the hot air flow around the heating piece is blown into the baking cavity through the fan to bake food materials in the baking cavity, so that the heating is uniform and high in efficiency, and after baking is finished, the food materials in the baking cavity can be put into the cooking cup through the discharging component, so that the food materials can be baked through the baking device before being whipped in the process of making food by the food processor, and the food materials in the cooking cup only need to be whipped and crushed, so that the time for making food by the food processor is not required to be boiled for a long time, the time for making food by the food processor can be effectively shortened, and meanwhile, the overflow of the food materials can be avoided even if the height of the cooking cup is reduced, and the cooking cup is also beneficial to being made shorter and smaller; compared with the prior art, the baking device has the advantages that the air duct is arranged on one side of the baking cavity, the side face of the shell component is provided with the air hole for communicating the air duct with the baking cavity, so that hot air in the air duct enters the baking cavity from the side face of the baking cavity, firstly, food materials in the baking cavity and the air duct at the same height position are heated, and because the hot air density is small, the hot air moves towards the upper end of the baking cavity, and then, the food materials at the upper end of the baking cavity are heated, and therefore, the food materials in the baking cavity can be heated quickly and efficiently; in addition, because the air duct is arranged on one side of the baking cavity, the whole height of the baking device is more compact, and the baking device is easier to keep stable in the working process of the cooking machine.

Further, the shell assembly comprises a shell and an inner barrel arranged in the shell, the shell comprises a first part extending along the vertical direction and a second part extending along the horizontal direction, the inner barrel comprises a charging barrel arranged in the first part and an air barrel arranged in the second part, the charging barrel is provided with a baking cavity, the air barrel is limited to form an air duct, the air hole is arranged on the side wall of the charging barrel and communicated with the air duct, the heating element is arranged in the air barrel, and the fan is arranged at the end part of the air barrel. The fan blows the hot air flow generated by heating the heating piece towards the direction of the first part, the hot air flow automatically rises after entering the baking cavity through the air hole, so that food in the baking cavity can be baked rapidly, the baking efficiency is improved, and the shell assembly is reasonable in structure.

Further, the discharging assembly comprises a discharging baffle and a driving mechanism, wherein the discharging baffle is used for opening or closing the opening and is rotatably connected with the shell assembly; the driving mechanism drives the blanking baffle to switch between a first state and a second state through rotation, the blanking baffle closes the opening in the first state, and the blanking baffle opens the opening in the second state. Therefore, the blanking baffle is controlled by the driving mechanism to be switched between the first state and the second state, so that food materials baked in the baking cavity can be put into the cooking cup, and the operation is convenient.

Further, the driving mechanism is arranged at the lower position of the air duct, the driving mechanism comprises a motor, a screw rod sliding block assembly and a pull rod, the screw rod sliding block assembly comprises a screw rod connected with the motor and a sliding block in threaded fit with the screw rod, and two ends of the pull rod are respectively connected with the sliding block and the blanking baffle. Thus, the driving mechanism has simple and reliable structure.

Further, the discharging assembly further comprises a supporting frame for installing the driving mechanism, and the supporting frame is installed in the shell. Through setting up the support frame, can conveniently assemble actuating mechanism.

Further, the shell comprises a discharge hole arranged below the charging barrel, the discharge hole is closed when the discharging baffle is in a first state, and the discharge hole is opened when the discharging baffle is in a second state. So, through control unloading baffle, can realize throwing into cooking cup the food material of toasting the intracavity, do not need manual operation, can throw into cooking cup the food material of toasting the intracavity voluntarily.

Further, the heating element comprises a bracket formed by mica sheets and a heating wire wound on the bracket, and a channel for air flow to pass through is arranged between the bracket and the heating wire. Through setting up the passageway, can guarantee that the hot air flow reaches the baking intracavity smoothly under the blowing of fan.

Further, the baking apparatus further includes an isolation cylinder surrounding the heating member, the isolation cylinder being made of mica sheets. Through setting up the isolation barrel, can play thermal-insulated, insulating effect, can avoid the casing subassembly to generate heat.

Further, the shell assembly further comprises an air outlet mesh cover arranged at the end part of the first part and an air inlet mesh cover arranged at the end part of the second part, the air outlet mesh cover covers the top end opening of the charging barrel, and the air inlet mesh cover is arranged at the air inlet side of the fan. Through setting up air-out screen panel and air inlet screen panel, can form the air current circulation in the casing subassembly to guarantee to have constantly new air to get into the wind channel through the air inlet screen panel and be heated by the heating member and form the hot air current, the hot air current that has heated food simultaneously is discharged through the air-out screen panel, so the circulation makes heating efficiency higher.

Further, the shell assembly further comprises an end cover detachably arranged at the end part of the first part, and the air outlet net cover is clamped between the first part and the end cover. Therefore, the end cover is detached, and the air outlet net cover is taken down, so that food materials can be conveniently added into the baking cavity from the top end opening of the inner cylinder.

Another aspect of the present application provides a food processor. This cooking machine includes: a host; the cooking cup is arranged on the host machine and is provided with a crushing assembly; and the baking device is covered on the cooking cup and can provide baked food materials for the cooking cup. So, at the in-process of cooking machine preparation food, can toast the food through baking device before food whipping, only need in cooking cup whipping, smash the food can to do not need long-time boiling food, can shorten the time of cooking machine preparation food effectively.

Drawings

FIG. 1 is a schematic perspective view of one embodiment of a food processor of the present application;

fig. 2 is a perspective view illustrating a cooking machine and a baking apparatus shown in fig. 1;

FIG. 3 is an exploded view of the toasting device shown in FIG. 2;

FIG. 4 is an exploded view of the cover of FIG. 2;

FIG. 5 is an exploded view of the outfeed assembly of FIG. 3;

FIGS. 6 and 7 are cross-sectional views of the toasting device of FIG. 3 in various operating conditions;

fig. 8 is a schematic view of a baking apparatus of the prior art.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present application. Rather, they are merely examples of apparatus consistent with some aspects of the present application as detailed in the accompanying claims.

The terminology used in the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the present application. Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "a" or "an" and the like as used in the description and the claims do not denote a limitation of quantity, but rather denote the presence of at least one. The word "comprising" or "comprises", and the like, means that elements or items appearing before "comprising" or "comprising" are encompassed by the element or item recited after "comprising" or "comprising" and equivalents thereof, and that other elements or items are not excluded. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any or all possible combinations of one or more of the associated listed items.

Referring to fig. 8, the baking mechanism 130 includes a housing 131, a heating element 134 and a valve 133, wherein the housing 131 is formed with a baking cavity 131a with an opening at one end, and the fan assembly 132 is used for making the hot air flow generated by the heating element 134 flow towards the baking cavity 131a, so as to shorten the baking time. As is clear from fig. 7, the heating element 134 is located above the baking cavity 131a, and because the density of the hot air flow is small, the hot air generated by the heating element 134 flows upward more easily, that is, the hot air is not easy to enter the baking cavity 131a from the air inlet 131b through the air supply channel 131c on the side of the baking cavity 131a, and even under the blowing of the blower assembly 132, the hot air still has a larger loss, so that the heating efficiency of the baking cavity 131a is not high.

The application discloses a cooking machine 100 please refer to fig. 1 to 7, and the cooking machine 100 may be a soymilk machine, a juice extractor, a wall breaking machine, etc. The cooking machine 100 comprises a main machine 91, a cooking cup 93 arranged on the main machine 91 and a baking device 95 covered on the cooking cup 93.

The host 91 includes the motor, and cooking cup 93 is equipped with crushing subassembly, and motor drive crushing subassembly rotates to whip food material. The pulverizing assembly may be a knife assembly or a grinding assembly, and is not limited thereto. The cuisine cup 93 is also provided with a heating element, which in the present application can be used for heating water. The main machine 91 further comprises a control circuit board for providing power and control signals to control the operation of the food processor 100. The baking device 95 can provide baked food materials to the cooking cup 93.

Referring to fig. 3, 4 and 5, the baking apparatus 95 includes a housing assembly 10, a blower 30, a heating member 20 and a discharging assembly 40. The shell assembly 10 is provided with a baking cavity 11 with an opening 15 at the bottom end and an air duct 12 arranged on one side of the baking cavity 11, and the side surface of the shell assembly 10 is provided with an air hole 39 communicated with the air duct 12 and the baking cavity 11. The roasting chamber 11 is used for roasting food materials (e.g., beans, grains, etc.).

The fan 30 is disposed at an end of the air duct 12 remote from the baking chamber 11. The heating element 20 is disposed in the air duct 12 and located between the blower 30 and the baking chamber 11, and the heating element 20 is used for heating the baking chamber 11.

When the baking device 95 starts to work, the heating element 20 and the blower 30 are turned on, the heating element 20 starts to generate heat, the blower 30 blows hot air around the heating element 20 towards the baking cavity 11, the hot air flows to the bottom end of the baking cavity 11 in the air duct 12 and enters the baking cavity 11 from the bottom end of the baking cavity 11, so that the food in the baking cavity 11 is heated and baked.

An outfeed assembly 40 is mounted to the housing assembly 10, the outfeed assembly 40 being configured to open or close the opening 15. The outfeed assembly 40 closes the opening 15 before the toasting begins. After baking is completed, the discharge assembly 40 opens the opening 15 to deliver the baked food material into the cooking cup 93.

According to the baking device 95, the shell assembly 10 is provided with the baking cavity 11, the hot air flow around the heating piece 20 is blown into the baking cavity 11 through the fan 30, so that food materials in the baking cavity 11 are baked, the heating is uniform and efficient, and after baking is finished, the food materials in the baking cavity 11 can be put into the cooking cup 93 through the discharging assembly 40, so that the food materials can be baked through the baking device 95 before being stirred by the food materials in the process of manufacturing the food by the food processor 100, and only the food materials need to be stirred and crushed in the cooking cup 93, so that the food materials do not need to be boiled for a long time, the food manufacturing time of the food processor 100 can be effectively shortened, and meanwhile, the food materials are prevented from overflowing even if the height of the cooking cup 93 is reduced, so that the food materials are also beneficial to being manufactured to be shorter and smaller; compared with the prior art, in the baking device 95, as the air duct 12 is arranged at one side of the baking cavity 11, and the air hole 39 for communicating the air duct 12 with the baking cavity 11 is formed in the side face of the shell assembly 10, hot air in the air duct 12 enters the baking cavity 11 from the side face of the baking cavity 11 and firstly heats food materials in the baking cavity 11 and the air duct 12 at the same height position, and as the hot air density is small, the hot air moves towards the upper end of the baking cavity 11, and then heats the food materials at the upper end of the baking cavity 11, so that the food materials in the baking cavity 11 can be heated quickly and efficiently; in addition, because the air duct 12 is arranged at one side of the baking cavity 11, the overall height of the baking device 95 is more compact, and the baking device is easier to keep stable in the working process of the food processor 100.

Preferably, the area of the wind holes 39 ranges between 0.5 square millimeters and 13 square millimeters. In this way, food materials can be prevented from leaking from the air holes 39, and hot air can be guaranteed to enter the baking cavity 11 quickly, so that baking efficiency is guaranteed.

In some embodiments, the area of the air holes 39 may be 0.5 square millimeters, 2 square millimeters, 4 square millimeters, 6 square millimeters, 8 square millimeters, 10 square millimeters, 12 square millimeters, 13 square millimeters, and some value between any two adjacent ones of the foregoing. The shape of the wind hole 39 may be circular, square, elliptical, etc., or may be irregular, and is not limited thereto.

The shell assembly 10 comprises a shell 19 and an inner cylinder 18 arranged in the shell 19, the shell 19 comprises a first part 191 extending along the vertical direction and a second part 192 extending along the horizontal direction, the inner cylinder 18 comprises a cylinder 181 arranged in the first part 191 and an air cylinder 182 arranged in the second part 192, the cylinder 181 is provided with the baking cavity 11, the air cylinder 182 defines the air channel 12, the air hole 39 is arranged on the side wall of the cylinder 181 and is communicated with the air channel 12, the heating element 20 is arranged in the air cylinder 182, and the fan 30 is arranged at the end part of the air cylinder 182. The fan 30 blows the hot air generated by heating the heating element 20 towards the direction of the first portion 191, and the hot air automatically rises after entering the baking cavity 11 through the air hole 39, so that the food in the baking cavity 11 can be quickly baked, the baking efficiency is improved, and the shell assembly 10 is reasonable in structure.

The discharging assembly 40 comprises a discharging baffle 41 and a driving mechanism, the discharging baffle 41 is used for opening or closing the opening 15, and the discharging baffle 41 is rotatably connected with the shell assembly 10; the driving mechanism drives the blanking baffle 41 to switch between a first state and a second state through rotation, the blanking baffle 41 closes the opening 15 in the first state, and the blanking baffle 41 opens the opening 15 in the second state. In this way, the discharging baffle 41 is controlled by the driving mechanism to switch between the first state and the second state, so that the food materials baked in the baking cavity 11 can be put into the cooking cup 93, and the operation is convenient.

The driving mechanism is disposed at a position below the air duct 182, the driving mechanism includes a motor 43, a screw slider assembly 44 and a pull rod 45, the screw slider assembly 44 includes a screw 441 connected with the motor 43 and a slider 442 in threaded engagement with the screw 441, and two ends of the pull rod 45 are respectively connected with the slider 442 and the blanking baffle 41. The motor 43 rotates to drive the screw 441 to rotate, so that the sliding block 442 reciprocates on the screw 441 to drive the pull rod 45 to move along with the screw, and the pull rod 45 drives the baffle bracket 42 to switch between the first state and the second state. Thus, the driving mechanism has simple and reliable structure.

The outfeed assembly 40 further includes a support 491 for mounting the drive mechanism, the support 491 being mounted within the housing 19. By providing the supporting frame 491, the driving mechanism can be assembled conveniently.

Further, the driving mechanism further includes a magnet 447 disposed on the sliding block 442 and a position sensor 448 fixed on the supporting frame 491 or the housing assembly 10, and by sensing the position of the sliding block 442, the rotation position of the blanking baffle 41 can be precisely controlled, so that the blanking baffle 41 can be ensured to completely close the opening 15, or the blanking baffle 41 can be ensured to completely open the opening 15.

The housing 19 includes a discharge port 193 disposed below the barrel 181, the blanking baffle 41 closes the discharge port 193 in a first state, and the blanking baffle 41 opens the discharge port 193 in a second state. Referring to fig. 6, the blanking panels 41 simultaneously close the outlet 193 and the opening 15 in the first state. Referring to fig. 7, the blanking panels 41 simultaneously open the outlet 193 and the opening 15 in the second state.

When the blanking panel 41 is switched from the first state to the second state, the opening 15 and the discharge opening 193 are simultaneously opened, and food materials in the baking chamber 11 flow out of the baking device 95 and flow into the cooking cup 93 through the opening 15 and the discharge opening 193 in sequence. Thus, by controlling the blanking baffle 41, the food material in the baking chamber 11 can be put into the cooking cup 93, and the food material in the baking chamber 11 can be automatically put into the cooking cup 93 without manual operation.

The heating element 20 comprises a bracket 21 formed by mica sheets and a heating wire 22 wound on the bracket 21, and a channel 23 for air flow to pass through is arranged between the bracket 21 and the heating wire 22. By providing the passage 23, it is possible to ensure that the hot air flow smoothly reaches the inside of the baking chamber 11 under the blowing of the blower 30. The support 21 is fixed together by a plurality of mica sheets, and a heat supply airflow flowing channel 23 is arranged between every two adjacent mica sheets.

The baking apparatus 95 further includes an isolation cylinder 29 surrounding the heating member 20, the isolation cylinder 29 being made of mica sheets. By providing the insulating cylinder 29, heat insulation can be achieved, and heat generation of the housing assembly 10 can be avoided.

Referring to fig. 6 and 7, the housing assembly 10 further includes an air outlet mesh enclosure 161 disposed at an end of the first portion 191 and an air inlet mesh enclosure 162 disposed at an end of the second portion 192, the air outlet mesh enclosure 161 covers the top opening of the inner cylinder 18, and the air inlet mesh enclosure 162 is disposed on the air inlet side of the fan 30. Through setting up air-out screen panel 161 and air inlet screen panel 162, can form the air current circulation in casing subassembly 10 to guarantee to have constantly new air to get into wind channel 12 through air inlet screen panel 162 and be heated by heating member 20 and form the hot air current, the hot air current that has heated food simultaneously is discharged through air-out screen panel 161, so circulation makes heating efficiency higher.

In one embodiment, the housing assembly 10 further includes an end cap 163 detachably disposed at an end of the first portion 191, and the air outlet mesh enclosure 161 is clamped between the first portion 191 and the end cap 163. In this way, by removing the end cap 163 and then removing the air outlet mesh enclosure 161, food materials can be conveniently added into the baking chamber 11 from the top end opening of the inner cylinder 18. The end cap 163 and the first portion 191 are cooperatively fixed by a threaded structure, a buckle, a turnbuckle, etc.

Referring to fig. 3, the housing 19 includes a left half shell 194 and a right half shell 195 that interfaces with the left half shell 194, the left and

right half shells

194, 195 being secured together by a retainer 199 and/or fasteners and/or snaps. By providing the outer shell 19 in a configuration in which the left and

right half shells

194, 195 are abutted, the inner barrel 18 can be conveniently installed within the outer shell 19. In the illustrated embodiment, the top end of the first portion 191 is fixed to the left half shell 194 and the right half shell 195 by a fixing ring 199, and other positions are fixed by screws, but is not limited thereto.

Referring to fig. 5 and 6, the baking device 95 further includes a cover 60, the cover 60 is provided with a feeding hole 61 corresponding to the discharging hole 193, and a vertical projection of the discharging hole 193 on the cover 60 is staggered from the feeding hole 61. Because the vertical projection of the discharge hole 193 on the cover 60 is staggered from the position of the feed hole 61, steam generated by hot water in the cooking cup 93 cannot enter the baking device 95 through the discharge hole 193, and thus, the baking device 95 has good safety. After the baked food material is completely put into the cooking cup 93, the baffle bracket 42 is controlled to be switched to the first state so as to close the discharge hole 193, and steam is better prevented from entering the baking device 95. The cover 60 is provided with a sealing ring 601 matched and sealed with the cooking cup 93.

The cover 60 is further provided with an annular flange 65 surrounding the feed hole 61 and a spill-proof cover 66 rotatably covering the flange 65. By providing the annular flange 65, when the food material in the baking chamber 11 is put into the cooking cup 93, the whole food material can be introduced into the cooking cup 93; by providing the overflow preventing cover 66, on the one hand, slurry can be prevented from overflowing from the feeding hole 61, and on the other hand, heat in the cooking cup 93 can be prevented from being emitted during the working process of the cooking machine 100.

Referring to fig. 2 and 3, a latch assembly 70 is disposed in the cover 60, the latch assembly 70 includes a latch member 71 and an elastic restoring member 73, the cover 60 is provided with a through hole 67 corresponding to the latch member 71, and the elastic restoring member 73 applies an elastic force to the latch member 71, so that the latch member 71 protrudes from the through hole 67 of the cover 60 and is in latch fit with the housing assembly 10. Thus, through setting up latch assembly 70, can lock lid 60 and shell subassembly 10 together, avoid in cooking machine 100 course of working, lid 60 and shell subassembly 10 are because of vibrations too big and are taken off for cooking machine 100 is in use more stable, reliable. The latch assembly 70 further includes a snap spring 72 that cooperates with the latch member 71 to limit. The cover 60 is provided with a containing structure 602 and a glue cover 603 for closing the containing structure 602, and the locking assembly 70 is mounted on the containing structure 602.

In the operating state, the locking member 71 protrudes from the through hole 67 of the cover 60 and is locked with the housing assembly 10. When the baking device 95 needs to be removed, the latch 71 is pressed, so that the latch state between the latch 71 and the housing assembly 10 is released, and the housing assembly 10 and the cover 60 can be removed respectively. The elastic restoring member 73 may comprise any one of the following: the spring, the elastic rubber piece and the metal spring piece are not limited to the above.

The housing assembly 10 further includes a temperature sensor 81 and a coupler 82 electrically connected to the temperature sensor 81, the temperature sensor 81 extending into the inner barrel 18, the coupler 82 being secured to the outer shell 19. In this way, the real-time temperature in the baking chamber 11 can be acquired by the temperature sensor 81. The inner tube 18 and the outer shell 19 are provided with holes through which the temperature sensor 81 passes. The cooking cup 93 handle top is equipped with butt joint coupler 88, this butt joint coupler 88 with set up in the control circuit board electricity of host computer 91 is connected, the electric connection is realized in coupler 82 and butt joint coupler 88 cooperation, the real-time temperature of baking chamber 11 that temperature sensor 81 gathered can pass through coupler 82 and butt joint coupler transmit for the control circuit board.

The fan 30 is disposed outside the air duct 182, and an air collecting cover 189 is disposed between the air outlet side of the fan 30 and the air duct 182. By providing the air-collecting hood 189, the air blown out from the air outlet side of the blower 30 can be better guided into the air duct 182. The air collection shroud 189 is sealed with the fan 30 by a fan seal 188.

The foregoing description of the preferred embodiments of the present utility model is not intended to limit the utility model to the precise form disclosed, and any modifications, equivalents, improvements and alternatives falling within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Claims

1. A toasting device, characterized in that: it comprises the following steps:

the baking device comprises a shell assembly (10), a baking cavity (11) with an opening (15) at the bottom end and an air duct (12) arranged at one side of the baking cavity (11), wherein an air hole (39) for communicating the air duct (12) with the baking cavity (11) is formed in the side face of the shell assembly (10);

the fan (30) is arranged at one end of the air duct (12) far away from the baking cavity (11);

the heating piece (20) is arranged in the air duct (12) and positioned between the fan (30) and the baking cavity (11), and the heating piece (20) is used for heating the baking cavity (11); a kind of electronic device with high-pressure air-conditioning system

And the discharging assembly (40) is arranged on the shell assembly (10), and the discharging assembly (40) is used for opening or closing the opening (15).

2. The toasting device of claim 1, wherein: the shell assembly (10) comprises a shell (19) and an inner cylinder (18) arranged in the shell (19), the shell (19) comprises a first part (191) extending along the vertical direction and a second part (192) extending along the horizontal direction, the inner cylinder (18) comprises a charging barrel (181) arranged in the first part (191) and an air cylinder (182) arranged in the second part (192), the charging barrel (181) is provided with the baking cavity (11), the air cylinder (182) is limited to form the air duct (12), the air hole (39) is formed in the side wall of the charging barrel (181) and is communicated with the air duct (12), the heating element (20) is arranged in the air cylinder (182), and the air blower (30) is arranged at the end part of the air cylinder (182).

3. The toasting device of claim 2, wherein: the discharging assembly (40) comprises a discharging baffle (41) and a driving mechanism, the discharging baffle (41) is used for opening or closing the opening (15), and the discharging baffle (41) is rotatably connected with the shell assembly (10);

the driving mechanism drives the blanking baffle (41) to switch between a first state and a second state through rotation, the blanking baffle (41) closes the opening (15) in the first state, and the blanking baffle (41) opens the opening (15) in the second state.

4. A toasting device as claimed in claim 3, wherein: the driving mechanism is arranged at the lower position of the air duct (182), the driving mechanism comprises a motor (43), a screw rod sliding block assembly (44) and a pull rod (45), the screw rod sliding block assembly (44) comprises a screw rod (441) connected with the motor (43) and a sliding block (442) in threaded fit with the screw rod (441), and two ends of the pull rod (45) are respectively connected with the sliding block (442) and the blanking baffle (41).

5. A toasting device as claimed in claim 3, wherein: the discharging assembly (40) further comprises a supporting frame (491) for mounting the driving mechanism, and the supporting frame (491) is mounted in the shell (19).

6. A toasting device as claimed in claim 3, wherein: the shell (19) comprises a discharge hole (193) arranged below the charging barrel (181), the discharge hole (193) is closed when the blanking baffle (41) is in a first state, and the discharge hole (193) is opened when the blanking baffle (41) is in a second state.

7. The toasting device of claim 2, wherein: the heating piece (20) comprises a bracket (21) formed by mica sheets and a heating wire (22) wound on the bracket (21), and a channel (23) for air flow to pass through is arranged between the bracket (21) and the heating wire (22).

8. The toasting device of claim 7, wherein: the baking device further comprises an isolation cylinder (29) surrounding the heating element (20), wherein the isolation cylinder (29) is made of mica sheets.

9. The toasting device of claim 2, wherein: the shell assembly (10) further comprises an air outlet mesh enclosure (161) arranged at the end part of the first part (191) and an air inlet mesh enclosure (162) arranged at the end part of the second part (192), the air outlet mesh enclosure (161) covers the top end opening of the charging barrel (181), and the air inlet mesh enclosure (162) is arranged at the air inlet side of the fan (30).

10. The toasting device of claim 9, wherein: the shell assembly (10) further comprises an end cover (163) detachably arranged at the end part of the first part (191), and the air outlet net cover (161) is clamped between the first part (191) and the end cover (163).

11. A cooking machine, characterized in that it includes:

a host (91);

the cooking cup (93) is arranged on the host machine (91), and the cooking cup (93) is provided with a crushing assembly; a kind of electronic device with high-pressure air-conditioning system

Baking apparatus according to any of claims 1-10, arranged to cover the cuisine cup (93), said baking apparatus being capable of providing baked foodstuff to the cuisine cup (93).