CN210540972U - Air fryer with reliable transmission - Google Patents

Abstract

The utility model provides a reliable air fryer of transmission, including last organism and lower organism, it is equipped with hot-blast fan and heating device to go up the organism, the organism is equipped with and holds the chamber down, it is equipped with the container to hold the intracavity, be equipped with agitating unit in the container, wherein, food preparation machine still includes the steam generator who provides steam to the processing chamber, steam generator includes steam generator and steam pipeline, steam pipeline is including admitting air chamber and drive shaft, the chamber of admitting air passes through air inlet and steam generator intercommunication, the chamber of admitting air passes through gas outlet and drive shaft intercommunication, still be equipped with rotary seal structure between drive shaft and the chamber of admitting air, drive shaft simultaneous drive agitating unit, the drive shaft stretches into the chamber part of admitting air and is equipped with the air vent that. The functions of the existing air fryer are expanded by adding the steam generator; meanwhile, power transmission is achieved by means of the steam pipeline, the steam pipeline has the steam and power transmission functions at the same time, and power transmission reliability is further guaranteed by means of the steam pipeline sealing structure.

Description

Air fryer with reliable transmission

Technical Field

The utility model relates to a food processing field especially relates to a multi-functional air is fried and is cooked pot.

Background

An existing air fryer generally comprises an upper machine body and a lower machine body, wherein the upper machine body is provided with a hot air fan and a heating device, the lower machine body is provided with a containing cavity, and a container is arranged in the containing cavity. This air fryer relies on hot-blast fan and heating device to heat the barbecue to placing the edible material in the container to the completion is to the processing of edible material. However, the product has a single function, and the food cannot be turned and baked during the processing process, which causes uneven processing of the food.

As a product of improving the promotion, still include an air fryer that sets up agitating unit, can further stir the upset to the edible material in the container, especially for less, dispersed edible material, difficult processing when edible material piles up is even, sets up agitating unit and can solve this problem.

However, the relative processing function of the air fryer is still single, the air fryer can only be used for barbecuing food materials, and can be used for continuously barbecuing the food materials, so that the food materials are too dry, and particularly when meat is processed, the meat food materials are dehydrated too much, and the taste of the meat food materials is affected.

To solve the above problems, the application No. CN201720587695.7 discloses an air fryer, which comprises a water storage device disposed in a container, and water is filled in the water storage device, during the operation, the water in the water storage device is heated to form steam, and the steam enters into a containing cavity, so that the temperature in the containing cavity is increased, and the taste of the food is improved.

However, this kind of air is fried pot and is directly set up water storage device in holding the intracavity, and in the course of the work, if there is water in the water storage device, then can realize increasing the function of steam, or no water or water is evaporated in the water storage device, then can't realize heating and hold the purpose in chamber again to, water storage device sets up in holding the intracavity, if the procedure of setting for does not need steam to heat, but if the user is water injection in water storage device, then production of uncontrollable steam in the course of the processing can't make edible material by better processing on the contrary. The water storage device only depends on the heating device of the air fryer to realize heating, the steam generation speed is increased along with the temperature rise in the accommodating cavity, but the steam speed cannot be controlled, and the function of quickly generating steam cannot be met; and the water storage device can absorb part of the heat generated by the heating device, so that the whole processing efficiency of the air fryer is reduced.

The air fryer needs to be provided with a driving structure to drive the stirring device, and meanwhile, a water storage device needs to be additionally arranged to achieve the purpose of generating steam, the structure is complex, the driving device and the water storage device cannot be effectively combined, only the functions are overlapped, the volumes of the driving device and the water storage device are occupied, and the space utilization rate of the air fryer is reduced.

The water storage device is arranged in the accommodating cavity, particularly the water storage device is arranged on the stirring device, so that the stress of the stirring device is increased, and particularly when the water storage device is arranged at the upper end of the stirring device, the stirring device is easily shaken, abraded and the like due to the influence of gravity; the water storage device is added in the accommodating cavity, so that the space of the existing accommodating cavity is inevitably occupied, and the accommodating effective utilization rate of the air fryer is reduced. The water storage device is arranged in the accommodating cavity, and steam generated in the processing process can enter the machine body, particularly along the driving structure

In summary, the prior art has a complex structure and a single function, and only partially solves the defects of the prior art, for example, when a user needs a large amount of steam to realize a pure steam function, the requirement cannot be met.

Disclosure of Invention

An object of the utility model is to provide a connect reliable and stable, simple structure's multi-functional air and fry pot.

In order to solve the technical problem, the utility model provides an air fryer with reliable transmission, which comprises an upper machine body and a lower machine body, the upper machine body is provided with a hot air fan and a heating device, the lower machine body is provided with a containing cavity, a container is arranged in the containing cavity, a stirring device is arranged in the container, wherein, the air fryer also comprises a steam generating device for providing steam for the accommodating cavity, the steam generating device comprises a steam generator and a steam pipeline, the steam pipeline comprises an air inlet cavity and a driving shaft, the air inlet cavity is communicated with the steam generator through an air inlet, the air inlet cavity is communicated with the driving shaft through an air outlet, a rotary sealing structure is arranged between the driving shaft and the air inlet cavity, the driving shaft drives the stirring device simultaneously, the part of the driving shaft extending into the air inlet cavity is provided with a vent hole for communicating the air inlet cavity with the interior of the driving shaft.

Preferably, the air inlet cavity is disc-shaped, the air inlet is located at the outer side of the air inlet cavity, and the air outlet is located at the center of the air inlet cavity.

Preferably, the air inlet is arranged along the radial direction of the air inlet cavity, the center of the air inlet does not pass through the center of the air inlet cavity, and the driving shaft is inserted into the air inlet cavity along the axial direction.

Preferably, the air inlet cavity is internally provided with a contraction step, the contraction step extends into the air inlet cavity, so that the air inlet cavity forms a buffer area and a conduction area, the air inlet is communicated with the buffer area, the conduction area is communicated with the vent hole, and the equivalent cross-sectional area of the buffer area is larger than that of the conduction area.

Preferably, the air inlet cavity comprises an upper shell and a lower shell which are buckled with each other, annular ribs extending inwards are arranged on the inner surfaces of the upper shell or/and the lower shell, and the annular ribs form the contraction steps.

Preferably, the air outlet is located at the center of the upper shell, the lower shell is provided with a through hole opposite to the air outlet, the driving shaft penetrates through the air inlet cavity and extends out of the through hole, and rotary sealing structures are arranged between the driving shaft assembly and the upper shell and between the driving shaft assembly and the lower shell.

Preferably, the air fryer also comprises a driving motor, a positioning hole is formed in the end part of the driving shaft, and a motor shaft of the driving motor is inserted into the positioning hole to drive the driving shaft.

Preferably, the rotary seal structure includes a seal between the annular rib and the drive shaft.

Preferably, the air inlet is located at the bottommost portion of the air inlet chamber.

Preferably, the inner side wall of the air inlet cavity is provided with a blocking rib corresponding to the air inlet. The utility model has the advantages that:

1. the utility model discloses a reliable air of transmission explodes pot additionally sets up the steam generator that provides steam to holding the intracavity, because steam generator sets up alone, can be to steam generator's steam volume, time, whether multiple control such as operation, and then the steam volume that gets into to hold the intracavity, advance the steam time and cut off the steam time controllable, can satisfy multiple demands such as pure steam, supplementary steam, steam generator sets up alone, need not hold the heating device additional heating of intracavity, does not influence the normal work that the air explodes pot; and, steam generator sets up alone, and it is controllable to add the water yield, and the demand that can last water injection is satisfied through peripheral water source even, even need increase steam temporarily in the course of working, only need to steam generator water injection and open steam generator, can realize the function of steaming, and need not to close and open the air and fry the pot and come extra operation. Meanwhile, the steam pipeline is favorable for driving the stirring device, a driving structure is not required to be additionally arranged for driving the stirring device, and the structure and space utilization rate is improved. The transmission of steam and power can be realized simultaneously, and the multifunctional requirement of the air fryer is met. Steam line itself can set up seal structure and guarantee the reliability of transmission, and driving system relies on steam line to transmit, need not additionally again to driving system carry out sealed design, but both sharing steam line's seal structure, and the structure is realized conveniently, low in production cost. Moreover, the sealing requirement of the whole machine, especially the steam transmission, is greatly reduced, and the reliability of the steam transmission is ensured; the steam is transmitted in the driving shaft, so that the steam can be better prevented from entering a driving system, particularly a driving motor, and the problem of steam leakage is better solved.

2. The chamber of admitting air sets up to discoid, the accessible changes steam transmission path's effective cross sectional dimension on the one hand, promote steam transmission pressure's stability, on the other hand, discoid chamber of admitting air, the air inlet is advanced by the lateral wall, and the gas outlet sets up in the center, do benefit to the whole flow of steam, steam is gathered to the center by the lateral wall, be favorable to steam pressure's stability equally, moreover, discoid chamber of admitting air does not occupy more spaces in the axial, and make full use of explodes the pot itself in the radial great characteristic of footpath, can not change the size of current air and explode the pot, prevent that the too big user satisfaction who causes of volume from declining.

3. The air inlet is arranged along the radial direction of the air inlet cavity, the center of the air inlet does not pass through the center of the air inlet cavity, the driving shaft is inserted into the air inlet cavity in the axial direction, therefore, steam entering the air inlet cavity from the air inlet cannot be directly discharged from the air outlet, but collides with the air inlet cavity on the advancing path of the air inlet, and unstable-pressure steam directly generated by the steam generator can fully release pressure in the air inlet cavity and is discharged from the air outlet after being re-gathered in the air inlet cavity to form stable pressure output. The driving shaft is axially inserted into the air inlet cavity, so that the direction of steam is changed when the steam enters the interior of the driving shaft, particularly, the steam entering the air inlet cavity can form a rotational flow in the air inlet cavity, the center of the rotational flow is the center of the air inlet cavity, the driving shaft is inserted from the center of the air inlet cavity, the rotational flow steam is discharged from the driving shaft after being gathered, and the rotational flow steam cannot remain in the air inlet cavity, so that the whole steam transmission path is balanced, and the transmission is stable and reliable.

4. Set up the shrink step in the chamber of admitting air for admit air the intracavity and form the buffer and lead to the district, and buffer level cross sectional area is greater than lead to district level cross sectional area, and steam by the air inlet entering like this produces the sustained release pressure in the buffer, and simultaneously, the drop of water that remains in steam also can condense in the buffer. After the pressure is released by the buffer area, the steam enters the conducting area again, and the steam pressure entering the conducting area is increased due to the change of the cross section between the buffer area and the conducting area, so that the steam can quickly enter the driving shaft from the vent hole, and the reliability of steam transmission is improved.

5. The contraction step is formed by the upper shell or/and the lower shell of the air inlet cavity, the annular ribs are directly arranged on the inner surfaces of the upper shell and the lower shell, the structure is simple to realize, and other structural features are not required to be added. Meanwhile, the contraction step is formed by annular ribs which are contracted inwards by the upper shell and the lower shell, and the air inlet cavity does not occupy space outwards, so that the whole steam generating device occupies small volume, and is particularly suitable for function upgrading on the existing product.

6. The drive shaft is stretched out by the inferior valve to run through the setting of air inlet chamber, the driving source can directly drive at the lower extreme of drive shaft like this, and need not to set up the transmission structure again, and the structure realizes simply, and is very much, can make things convenient for whole steam generator's installation to maintain with on the driving source direct fixation in air inlet chamber.

7. Set up driving motor and drive the drive shaft, guaranteed agitating unit's operation balance and reliable, the drive shaft tip sets up the locating hole, and the motor shaft disect insertion drives the drive shaft in the locating hole, and transmission efficiency is high, and the installation is realized conveniently.

8. Increase the sealing member and promote the sealing performance between annular muscle and the drive shaft, can make and set up to clearance fit between annular muscle and the drive shaft, and then can set up to dismantling the scheme between drive shaft and the chamber of admitting air, like this, the drive shaft subassembly can be dismantled when wasing or maintaining, convenience of customers operation.

9. The air inlet is positioned at the bottommost part of the air inlet cavity, steam entering the air inlet cavity naturally rises and gathers under the action of upward buoyancy force of the steam and finally enters the driving shaft through the air outlet, the flow of the steam conforms to the movement trend of the steam, and the transmission of a steam pipeline is stable and reliable. Meanwhile, after water drops mixed in the steam are condensed in the air inlet cavity, the water drops can be discharged from the air inlet through the drainage structure, and the steam pipeline is convenient to maintain.

10. The air inlet cavity inner wall is provided with the blocking ribs corresponding to the air inlet, and when steam enters the air inlet cavity from the air inlet, the blocking ribs can be directly impacted, so that the impact force of the steam per se is further released, and the pressure stability of the steam in the air inlet cavity is ensured.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of the reliable-transmission air fryer of the present invention.

Fig. 2 is a schematic view of the steam pipeline structure of the first embodiment of the reliable-transmission air fryer of the present invention.

Fig. 3 is a schematic view of the steam pipeline structure of the first embodiment of the reliable-transmission air fryer of the present invention.

Fig. 4 is a partial enlarged view of a in fig. 3.

FIG. 5 is an exploded view of the steam line of the first embodiment of the reliable air fryer.

Fig. 6 is a schematic view of the lower shell structure of the first embodiment of the reliable-transmission air fryer of the present invention.

FIG. 7 is a schematic view of a steam line structure of a second embodiment of an air fryer with reliable transmission according to the present invention.

The names of the components marked in the figures are as follows:

100. mounting the machine body; 101. heating a tube; 102. a hot air fan; 103. a hot air motor; 110. a lower machine body; a containing cavity; 120. a container; 130. a stirring device; 131. a stirring paddle; 132. a stirring blade; 133. an air outlet; 140. a connecting shaft; 150. a steam generator; 160. a drive source; 161. a drive shaft hole; 2. an air inlet cavity; 20. an air inlet; 21. a lower case; 211. a through hole; 212. an annular convex rib; 213. a lower cover seal groove; 214. an air inlet cavity sealing groove; 215. a drive source fixing frame; 216. blocking ribs; 22. an upper shell; 221. an air outlet; 222. an upper cover annular bulge; 223. an upper cover sealing groove; 23. an inlet chamber lower seal; 231. sealing the lip; 232. sealing the ring rib; 24. an inlet chamber seal; 25. an upper inlet chamber seal; 26. a buffer area; 27. a conducting region; 28. an air intake grille.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. And the positional relationship such as "upstream" and "downstream" is based on the positional relationship when the fluid normally flows.

Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. In the description herein, reference to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The structure of the air fryer with reliable transmission of the utility model is shown in fig. 1-7, comprising anupper body 100 and alower body 110, wherein theupper body 100 is hinged with thelower body 110 through a connectingshaft 140, so that theupper body 100 is rotatably arranged above thelower body 110. Theupper body 100 is provided with a heating device, ahot air fan 102, and afan motor 103, preferably, the heating device is aheating pipe 101, thehot air fan 102 is disposed above theheating pipe 101, and thefan motor 103 drives thehot air fan 102 to rotate and blows heat generated by theheating pipe 101 into the accommodating cavity. Thelower body 110 is provided with a containingcavity 111, acontainer 120 is arranged in the containingcavity 111, and astirring device 130 is arranged in thecontainer 120. When theupper machine body 100 is fastened to thelower machine body 110, theheating pipe 101 and thehot air fan 102 are located above theaccommodating cavity 111 and thecontainer 120, theheating pipe 101 generates heat, the hot air fan blows heat generated by theheating pipe 101 to thecontainer 120 to heat food materials in the container, and meanwhile, the heating pipe can also bake the food materials through heat radiation.

The air fryer also comprises a steam generating device, the steam generating device comprises asteam generator 150 and a steam pipeline, the steam pipeline comprises anair inlet cavity 2 and a drivingshaft 3, theair inlet cavity 2 is communicated with thesteam generator 150 through anair inlet 20, theair inlet cavity 2 is communicated with the drivingshaft 3 through anair outlet 221, and the drivingshaft 3 drives the stirringdevice 130. And a rotary sealing structure is also arranged between the drivingshaft 3 and theair inlet cavity 2.

Through setting up steam line, realize the transmission of steam, make the air deep fryer can realize the function of pure roast, pure steaming, steaming and roasting looks structure. To realize pure roasting, only the heating device and the hot air fan are needed to be turned on, and circulating hot air can be formed in the container to heat and roast. To realize the pure steam function, only the steam generator needs to be opened, and steam is injected into the container through the steam pipeline, so as to realize the steam function. To realize the steaming and baking function, the heating and steam functions can be realized simultaneously only by simultaneously opening the heating device, the hot air fan and the steam generator. Simultaneously, steam line can drive agitating unit when the function needs and stir the edible material in the container to make processing more even.

The utility model discloses set up the steam conduit, realize the transmission of steam for the production function increases. Meanwhile, power driving can be achieved by means of the steam pipeline, the air fryer has a stirring function, and compared with existing products, the functions are not reduced, and user satisfaction is not reduced.

The first embodiment is as follows:

as the first embodiment of the air fryer with reliable transmission, as shown in fig. 1 and 2, the drivingshaft 3 is arranged at the center of the bottom of the container, the drivingshaft 3 is inserted into theair inlet cavity 2, and the drivingshaft 3 further drives the stirring device. With the drive shaft setting in the bottom center, make things convenient for steam evenly distributed in the container, make processing more even when evaporating the function, processing is more reliable.

As shown in fig. 2 to 6, theintake chamber 2 has a disk shape, and theintake chamber 2 includes alower shell 21 and an upper shell 22, and thelower shell 21 and the upper shell 22 are engaged with each other to form an intake space therein. Theair inlet 20 is arranged on the side wall of thelower shell 21 and located outside theair inlet cavity 2, and theair inlet 20 is located at the bottom of theair inlet cavity 2, so that air is introduced from the bottommost part of the air inlet space through theair inlet 20. The center of the upper shell 22 is provided with anair outlet 221, thelower shell 21 is oppositely provided with a throughhole 211, the drivingshaft 3 is inserted into theair inlet cavity 2 through theair outlet 221 and extends into theair inlet cavity 2 through the throughhole 211, the lower end of the drivingshaft 3 is closed, the side wall of the drivingshaft 3 inside theair inlet cavity 2 is provided with anair vent 30 for communicating theair inlet cavity 2 with the inside of the drivingshaft 3, and the lower end of the drivingshaft 3 is fixedly connected with the drivingsource 160, so that the drivingsource 160 is used for driving the drivingshaft 3, preferably, the drivingsource 160. Thedrive shaft 3 is further connected to the connectingsection 4 and drives the stirringdevice 130 via thedrive section 4. The chamber of admitting air sets up to discoid, the accessible changes steam transmission path's effective cross sectional dimension on the one hand, promote steam transmission pressure's stability, on the other hand, discoid chamber of admitting air, the air inlet is advanced by the lateral wall, and the gas outlet sets up in the center, do benefit to the whole flow of steam, steam is gathered to the center by the lateral wall, be favorable to steam pressure's stability equally, moreover, discoid chamber of admitting air does not occupy more spaces in the axial, and make full use of explodes the pot itself in the radial great characteristic of footpath, can not change the size of current air and explode the pot, prevent that the too big user satisfaction who causes of volume from declining.

As shown in fig. 3 to 6, theair inlet 20 is disposed along a radial direction of theair inlet chamber 2, and a center of theair inlet 20 does not pass through a center of theair inlet chamber 2. And thedrive shaft 3 is inserted into theintake chamber 2 in the axial direction.

As shown in fig. 3-6, the inner wall of thelower casing 21 is provided with anannular rib 212 extending upward, theannular rib 212 is disposed around the throughhole 211, theannular rib 212 forms a lowercover sealing groove 213, an air intake cavity lower sealingmember 23 is disposed at the lowercover sealing groove 213, and when the drivingshaft 3 penetrates out of theair intake cavity 2 through the throughhole 211, the air intake cavity lower sealingmember 23 is sleeved outside the drivingshaft 3 and is respectively attached to thelower casing 21 and the drivingshaft 3, so as to seal thelower casing 21 and the drivingshaft 3. As shown in fig. 6, the intake chamber lower sealingelement 23 is provided with a sealinglip 231 attached to thedrive shaft 3 and asealing ring rib 232 attached to the surface of the lowercover sealing groove 213, and the sealinglip 231 and the sealingring rib 232 can increase the attachment area of the intake chamber lower sealingelement 23 to thedrive shaft 3 and the lowercover sealing groove 213, thereby improving the sealing performance. Through setting up the protruding muscle of annular, on the one hand, can change the fluid region of the intracavity portion that admits air, on the other hand, the protruding muscle of annular naturally forms the groove that is used for installing the sealing member, and structure and space utilization promote, and the protruding muscle of annular inwards extends, can not increase the volume that the chamber of admitting air occupy inside the air fryer, still can promote sealing reliability.

An upper coverannular rib protrusion 222 extending downwards is arranged on the inner wall of the upper shell 22, the upper coverannular protrusion 222 is arranged around theair outlet 221, the upper coverannular protrusion 222 is arranged opposite to theannular rib 212, theannular rib 212 and the upper coverannular protrusion 222 enable abuffer area 26 and aconduction area 27 to be formed in theair inlet cavity 2, thebuffer area 26 is communicated with theair inlet 20, and theconduction area 27 is communicated with thevent hole 30. The equivalent cross-sectional area of thebuffer zone 26 is greater than the graded cross-sectional area of the conducting zone in the transport path of the vapor. The upper coverannular bulge 222 forms an uppercover sealing groove 223 on the outer wall of the upper shell, an air inlet cavityupper sealing piece 25 is arranged in the uppercover sealing groove 223, when the drivingshaft 3 is inserted into theair inlet cavity 2 from theair outlet 221, the air inlet cavityupper sealing piece 25 is sleeved outside the drivingshaft 3 and is respectively attached to the upper shell 22 and the drivingshaft 3, and the upper shell 22 and the drivingshaft 3 are sealed. Preferably, the structure of theupper sealing element 25 of the air inlet cavity is the same as that of thelower sealing element 23 of the air inlet cavity, so that the upper and lower sealing elements do not need to be distinguished during production and assembly, and the production efficiency of products is improved.

The rotary seal structure includes an intake chamberlower seal 23 provided between thedrive shaft 3 and thelower case 21, and an intake chamberupper seal 25 located between thedrive shaft 3 and the upper case 22.

The surface ofinferior valve 21 and the laminating of epitheca 22 fixed connection is equipped with air inletchamber seal groove 214, and air inletchamber seal groove 214 department is equipped with air inletchamber sealing member 24, and wheninferior valve 21 and epitheca 22 buckled mutually, air inletchamber sealing member 24 laminated mutually withinferior valve 21 and epitheca 22 respectively and was used for sealedair inlet chamber 2. The inner wall of thelower shell 21 is further provided with a blockingrib 216, the blockingrib 216 is opposite to theair inlet 20, and when steam enters the air inlet cavity from theair inlet 20, the blockingrib 216 can be directly impacted, so that the impact force of the steam per se is further released, and the pressure stability of the steam in the air inlet cavity is ensured.

Steam generator itself produces can have the unstable problem of pressure, also probably has mixed the drop of water, when direct transmission advances the container through the drive shaft in, can influence the whole processing to eating the material of air fryer, and machining efficiency and processing effect all descend. Through setting up the chamber of admitting air, the chamber of admitting air has obvious change to air inlet and blow vent volume and effective cross-section relatively for steam that produces by steam generator can cushion and stabilize in the chamber of admitting air, and pressure stability's steam gets into the drive shaft by the blow vent again inside and lets in the container, makes to reach the interior steam pressure of container stable, and steam volume and steam time control are accurate, and is reliable to the processing control of eating the material, and machining efficiency and processing effect improve and promote. Meanwhile, due to the release of pressure, water drops mixed in the steam can be precipitated and condensed and are gathered in the air inlet cavity, the water drops can not be transmitted into the container by the driving shaft, and the purity of the steam introduced into the container is also ensured. The air inlet is arranged at the lowest position of the bottom of the air inlet cavity, and condensed water in the air inlet cavity can be discharged by arranging a discharge mechanism and the like.

As shown in fig. 2 to 6, the stirringdevice 130 includes a stirringpaddle 131, astirring blade 132 and anair outlet 133, thestirring blade 132 is disposed on a side wall of the stirringpaddle 131, preferably, thestirring blade 132 is disposed as a single piece, which is mainly because the air fryer generally only needs to turn over the food material during the operation process, the required torque and the required rotation speed are not high, and the single blade can satisfy the stirring requirement. Theventhole 133 set up in stirringrake 131 upper end lateral wall,venthole 133 sets up to a plurality of and equipartition settings, simultaneously, stirringvane 132 is located in the axial theventhole 133 below. Through set up the venthole on the stirring rake, can be so that the steam of pouring into in the drive shaft gets into in the container along agitating unit, when agitating unit at the during operation, steam can be along with agitating unit's rotation, even distribution in the container space for the air is fried the pot and is more even to the processing of eating the material, and processing is more reliable. Simultaneously, the venthole is located stirring vane's top, and the material of eating is difficult to touch the venthole, can prevent effectively that the venthole from being blockked up by the material of eating, has guaranteed steam transmission pipeline's reliability and stability.

To sum up, increase steam generating device, the function of multiplicable steam expands the function of current product to, only increase the humidification structure in inside among the comparison prior art, the utility model discloses set up controllable steam generator, in the course of working, the air intake time of steam, air input are all controllable, and steam generator sets up alone, can not influence the efficiency of the heating device of the air fried pot itself, and the machining efficiency of the air fried pot itself can be guaranteed. Rely on the steam line to realize power transmission simultaneously, the further agitating unit of steam discharges, processes edible material at agitating unit rotation in, and processing is even, and the reliability is high.

It can be understood that the upper body and the lower body are separately arranged, and the upper body is directly buckled with the lower body.

It can be understood that the upper body and the lower body are separately arranged, and the upper body and the lower body are rotatably buckled.

It is understood that the air inlet may be disposed at an upper end or a lower end surface of the air inlet chamber; or the air inlet is arranged on the side wall of the air inlet cavity and is positioned at the middle end or the upper end of the air inlet cavity.

It can be understood that the air inlet cavity is provided with an air outlet, the driving shaft is inserted into the air inlet cavity and the lower end of the air inlet cavity is positioned in the air inlet cavity, the bottom or the side wall of the driving shaft is provided with an air vent for communicating the grinding driving shaft with the air inlet cavity, or the driving shaft is arranged in a hollow mode and penetrates through two ends of the driving shaft, and the air inlet cavity is directly communicated with the driving shaft through a shaft hole in the lower end of the driving.

It can be understood that the air outlet has been seted up in the chamber of admitting air, drive shaft cavity sets up and runs through both ends, the drive shaft lower extreme with the chamber surface of admitting air is laminated mutually, the chamber of admitting air switches on with the drive shaft through the air outlet.

It can be understood that the stirring blades can be arranged in a plurality of numbers and can be uniformly distributed along the radial direction of the stirring paddle; alternatively, the stirring blade is provided in plurality and is displaced in the axial direction.

It will be appreciated that a gap is provided between the stirring means and the drive shaft, and steam can be injected into the vessel through the gap between the stirring means and the drive shaft without providing a separate vent.

It is to be understood that the air outlet hole may be located axially below the agitating blade.

It is understood that the air outlet can be arranged at the top end of the stirring paddle.

It can be understood that the driving shaft can be separately arranged, the driving shaft comprises a driving section and a transmission section, the driving section is communicated with the steam generator, the transmission section is arranged on the container and is detachably communicated with the driving section, and the driving section and the transmission section are arranged in a hollow mode.

Example two.

As a second embodiment of the air fryer with reliable transmission of the utility model, the main difference with the first embodiment is that an air inlet grille is further arranged in the air inlet cavity.

As shown in fig. 7, the air inlet chamber includes anair inlet 20 and anair outlet 221, the air inlet is located at a side portion of theair inlet chamber 2, theair outlet 221 is located at a center of theair inlet chamber 2, anair inlet grille 26 is further disposed on an inner wall of the air inlet chamber, theair inlet grille 26 is disposed on an inner side wall of theair inlet chamber 2, theair inlet grille 26 is spirally raised, and steam entering theair inlet chamber 2 can spirally raise along theair inlet grille 26 and is discharged through theair outlet 221.

Through the arrangement of the air inlet grille, the movement path of the steam in the air inlet cavity is more controllable. On one hand, when steam enters the air inlet cavity, due to the change of the volume and the effective section, the pressure of the steam is released and is gathered in the air inlet cavity again to form steam with stable pressure, and then the steam is transmitted to the accommodating cavity through the driving shaft, so that the processing reliability of the air fryer is ensured; on the other hand, the motion path of the steam in the air inlet cavity is prolonged by the air inlet grille, the time for the corresponding steam to be remained in the air inlet cavity is longer, the steam with unstable pressure generated by the steam generator is released fully in the air inlet cavity, the steam pressure discharged by the air inlet cavity is stable and controllable, and the stability and the reliability of the air fryer in the processing process are further realized.

It is understood that the intake grill is provided in plural and spaced apart from each other.

It can be understood that the air inlet is located at the bottom of the side wall of the air inlet cavity, the air outlet is located at the top end of the side wall of the air inlet cavity, the air inlet and the air outlet are arranged oppositely, the steam generator further comprises a steam pipe located at the air outlet, and the steam generator is communicated with the driving shaft through the steam pipe.

It will be appreciated that the inlet is located at the top of the side wall of the inlet chamber and the outlet is located at the bottom of the inlet chamber or at the bottom of the side wall, with steam entering the inlet chamber from the upper part and exiting the inlet chamber from the lower part. Because the steam has upward buoyancy, the air inlet cavity is reversely arranged, so that the steam in the air inlet cavity can be better exhausted from the air outlet only by subsequent steam compression, and the pressure of the steam is subjected to a plurality of steps of releasing, re-gathering, pressurizing and the like through the change of the volume in the air inlet cavity, and finally the exhausted steam pressure is controllable and stable, thereby ensuring the stability and reliability of food material processing. The in-process that the steam oppressed downwards, the drop of water that remains in the steam can condense to finally gather in the air inlet cavity, discharge such as rethread drainage structures has guaranteed that the steam that gets into and holds the chamber is pure high-efficient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.

Claims (10)

1. The utility model provides a reliable air fryer of transmission, includes organism and lower organism, it is equipped with hot-blast fan and heating device to go up the organism, and lower organism is equipped with and holds the chamber, it is equipped with the container to hold the intracavity, be equipped with agitating unit in the container, a serial communication port, the air fryer still include to hold the steam generator that the chamber provided steam, steam generator includes steam generator and steam pipe, steam pipe is including admitting air chamber and drive shaft, admit air the chamber pass through the air inlet with steam generator intercommunication, admit air the chamber pass through the gas outlet with the drive shaft intercommunication, the drive shaft with admit air and still be equipped with rotary seal structure between the chamber, the drive shaft drives simultaneously agitating unit, the drive shaft stretches into admit air chamber part is equipped with and switches on admit air chamber and the inside air vent of drive shaft.

2. The air fryer of claim 1, wherein said air inlet chamber is disk-shaped, said air inlet being located outside of said air inlet chamber and said air outlet being located in the center of said air inlet chamber.

3. The air fryer according to claim 2, wherein said air inlet is disposed radially of said air inlet chamber and a center of said air inlet does not pass through a center of said air inlet chamber, said drive shaft being inserted axially into said air inlet chamber.

4. An air fryer according to claim 1, wherein a contracting step is provided in said air inlet chamber, said contracting step extending into said air inlet chamber such that said air inlet chamber forms a buffer zone and a conducting zone, said air inlet communicating with said buffer zone, said conducting zone communicating with said vent hole, said buffer zone equivalent cross-sectional area being greater than said conducting zone equivalent cross-sectional area.

5. An air fryer according to claim 4, wherein said air inlet chamber comprises an upper shell and a lower shell which snap together, and wherein said inner surface of said upper shell or/and said lower shell is provided with inwardly extending annular ribs which form said converging step.

6. An air fryer according to claim 5, wherein said air outlet is centrally located in said upper shell, said lower shell has a through opening opposite said air outlet, said drive shaft extends through said air inlet chamber and extends through said through opening, and a rotary seal is provided between said drive shaft assembly and each of said upper and lower shells.

7. The air fryer of claim 6, further comprising a drive motor, wherein an end of said drive shaft defines a positioning aperture, and wherein a motor shaft of said drive motor is inserted into said positioning aperture to drive said drive shaft.

8. The air fryer of claim 5, wherein said rotary seal arrangement includes a seal between said annular rib and said drive shaft.

9. The air fryer of claim 1, wherein said air inlet is located at a lowermost portion of said air inlet chamber.

10. The air fryer according to claim 1, wherein said inner wall of said air inlet chamber is further provided with a rib at a position corresponding to said air inlet.

Images