CN110876567B - Air fryer reliable in control - Google Patents

Abstract

The invention relates to an air fryer with stable control, which comprises a base and a cover body hinged with the base, wherein a fryer component is arranged in the base and comprises an inner pot, a hot air component is arranged in the cover body and comprises an air deflector, a fan and a heating component, the fan and the heating component are positioned below the air deflector, a transparent visual window is arranged on the cover body, the center of the hot air component deviates from the center of the fryer component, the distance from the center of the hot air component to the hinge center is smaller than the distance from the center of the fryer component to the hinge center, and the visual window is arranged around the hot air component and positioned above the inner pot. The hot air assembly is far away from the user relative to the fryer assembly, so that the area of the visible window on one side of the user is enlarged, and the user can visually observe the interior of the fryer assembly through the visible window. Meanwhile, the height of the cover body and the whole machine can be effectively reduced, the gravity center of the cover body and the whole machine is reduced, and when the cover body is opened or closed, the whole machine is stably controlled.

Description

Air fryer reliable in control

Technical Field

The invention relates to the field of food processing, in particular to an air fryer.

Background

The air fryer is used by more and more consumers, is different from the original mode of frying by hot oil, uses air as a heat transfer carrier, effectively reduces the oil content of food, and provides healthy diet for people. The existing air fryer comprises a base and a cover body hinged above the base, wherein a fryer component is arranged in the base, the fryer component comprises an inner pot, and a hot air component is arranged in the cover body. When the food materials need to be processed, the cover body is opened, the food materials are placed into the inner pot, the hot air assembly heats air and drives the air to rotate in the inner pot to heat and process the food materials. In order to better control the processing of the food material, the user usually observes the processing of the food material during the processing of the food material. If the cover body needs to be opened to observe food materials in the processing process, the temperature in the inner pot can be quickly reduced, and the normal processing of the air fryer is affected.

In the prior art, for example, application number CN201721559983.8 discloses a technical solution in which a transparent window is provided on a cover body, so that a user can observe the inner pot through the window during the processing process. However, the technical scheme still has the following technical problems: generally speaking, the diameter of interior pot is set for according to the size of product, and can provide sufficient heat energy in order to guarantee, hot-blast subassembly needs set up sufficient heating member and fan, and hot-blast subassembly sets up in interior pot top, make in vertical projection direction, hot-blast subassembly has occupied the area of great proportion, and then make available area on the lid smaller, be unfavorable for the user to observe, among the prior art, though improve the observation effect through changing the observation visual angle, but need the user to change the observation position, just can be better observe the situation in the interior pot. Meanwhile, the external window and the internal window are required to be arranged in a lap-joint mode, so that the height of the cover body is increased, the overall height of the air fryer is increased, the center of gravity of the cover body and the overall machine is moved upwards, and the control and the overall stability of the air fryer are greatly influenced. Moreover, such an arrangement does not increase the effective viewing area of the viewing window in the projection direction. Because if the observation area needs to be increased, the diameter of the hot air assembly needs to be reduced or the diameter of the inner pot needs to be increased, which can reduce the heating efficiency. The outer window and the inner window are arranged to be arched, the processing cavity formed by surrounding the hot air assembly and the inner pot is enlarged, the extra space causes the problems of hot air leakage, non-processing space increase and the like, and the processing efficiency is reduced.

In the prior art, as application number CN201821352114.2 discloses an eccentrically arranged air fryer, it changes the air flow in the cooker body by deviating the central axis of the hot air component from the central axis of the cooker body, thereby improving the heating efficiency and the taste of the food material. However, in this application, only the concept of center offset is disclosed, and how to offset, the setting of the offset direction is not specifically disclosed. This patent is totally silent as to the solution of observations of the product during operation. Meanwhile, the reduction of the height of the product cover body and the whole machine is solved, and the product is not stably controlled in use and is not related.

As the applicant of the two patents, the applicant of the present invention has found in further research that there is no good solution for the two patents to better observe the inside of the fryer assembly. However, the problem that the volume of the air fryer is too large and the shaking of products during the operation of the air fryer are solved is not mentioned, and a corresponding solution is not provided. As a leading person of the technology and products in the technical field of air fryer, it is urgently needed to solve the existing technical problems and provide more convenient and reliable technology and products for users.

Disclosure of Invention

In order to solve the technical problems, the invention provides the air fryer with stable operation and control, and the cover body eccentrically arranged towards the direction of the hinge shaft is arranged, so that the operation and control of a user are ensured to be different from the visual area and the visual angle, the height of the cover body and the whole body is reduced, and the cover body is ensured to stably operate when the cover body is opened.

The invention is realized by the following modes: a stable-control air fryer comprises a base and a cover body hinged to the base, wherein a fryer component is arranged in the base and comprises an inner pot, a hot air component is arranged in the cover body and comprises an air deflector, a fan and a heating element, the fan and the heating element are located below the air deflector, and a transparent visual window is arranged on the cover body, wherein the center of the hot air component deviates from the center of the fryer component, the distance from the center of the hot air component to a hinge center is smaller than the distance from the center of the fryer component to the hinge center, an included angle formed by a connecting line of the projection of the center of the fryer component and the hinge center on a horizontal plane and a connecting line of the projection of the center of the hot air component and the hinge center on the horizontal plane is alpha which is not more than 10 degrees, and the visual window surrounds the hot air component and is located above.

Preferably, the visual window comprises an outer visual window and an inner visual window, the inner visual window is transversely extended, and the outer visual window, the inner visual window and the cover body surround to form a visual cavity.

Preferably, the inner window is attached to the upper end of the inner pot.

Preferably, the cover body comprises a window connecting piece, the outer window and the inner window are connected through the window connecting piece, and sealing pieces are arranged between the inner window and the outer window and between the cover body and the window connecting piece respectively, so that the visual cavity forms a closed cavity.

Preferably, the lid includes the installation department, hot-blast subassembly sets up in the installation department, the vertical extension of installation department sets up, the exterior window is connected with interior window outside, and the inboard is connected with the installation department respectively, the slope of exterior window sets up, makes exterior window, interior window and installation department constitute visual chamber.

Preferably, the installation department includes outer installation department and is located the inner installation department of visual intracavity, the inner installation department lateral wall is more the outer installation department lateral wall to articulated center shrink makes the installation department lateral wall becomes the step-like.

Preferably, the installation portion is formed by the aviation baffle partition installation cavity, the installation portion top is equipped with the portion of controlling, be equipped with circuit board and cold air fan in the installation cavity, the installation cavity is equipped with air intake and the air outlet with outside intercommunication, the air intake is located the installation portion lateral wall, the air outlet is located the installation portion back wall.

Preferably, the cover body and the base respectively comprise a processing area and a connecting area, the connecting area is arranged on the rear side of the processing area, the fryer assembly and the hot air assembly are arranged in the processing area, the effective radius of the fryer assembly is R, the center distance of the fryer assembly is D from the hinge center, and L/D is more than or equal to 1.1 and less than or equal to 2.

Preferably, still include the steam subassembly, the steam subassembly is including setting up in the steam generator and the steam conveying pipe of frame, the fryer subassembly is equipped with the through-hole that supplies the steam conveying pipe to pass through, the through-hole is located fryer subassembly diapire center.

Preferably, the cover body is further provided with a steam discharge pipeline, the steam discharge pipeline comprises an exhaust inlet, an exhaust pipe and an exhaust outlet, the exhaust inlet is located on the top wall of the air deflector, and the distance from the exhaust inlet to the hinge center is smaller than the distance from the hot air assembly center to the hinge center.

The invention has the beneficial effects that:

1. according to the air fryer, the center of the hot air assembly deviates from the center of the fryer assembly, and particularly, the distance from the center of the hot air assembly to the hinge center is smaller than the distance from the center of the fryer assembly to the hinge center, so that the distance from the center of the hot air assembly to the outer edge of the fryer assembly is increased, when the visible window is arranged around the hot air assembly, the distance from the region, located at the outer edge of the hot air assembly, of the visible window to the outer edge of the fryer assembly is increased, the visible area is increased, and therefore, on the premise that the proportion requirement of the hot air assembly to the fryer assembly is met, the effective utilization area of the visible window is guaranteed, and the. Moreover, the area of the visible window on the projection section is directly increased instead of increasing the visual angle by utilizing the angle of the space, so that a user can directly observe the state of the food materials in the fryer assembly through the visible window, and the food materials can be fully observed without changing the angle. Because the increase of the actual observation area of the visual window, the height that need not the rethread improvement lid increases vertical observation area, and the lid highly can reduce in vertical direction to make lid and holistic focus reduce, control and job stabilization nature to the complete machine can improve greatly. The distance between the center of the hot air assembly and the hinge center is reduced, the center of gravity of the cover body and the whole machine is also favorably controlled, when the cover body is opened or buckled, the center of the hot air assembly is small relative to the rotating radius of the hinge center, the rotating linear speed is small, the received torsion and torque are small, and a user can conveniently control the cover body by using small force. When the lid is in the open mode, hot-blast subassembly centre-to-centre distance is little, and is also little enough apart from the height of controlling the platform, and because the most quality of lid concentrates on hot-blast subassembly, the focus of lid also squints downwards thereupon to the stability of complete machine has further been promoted. The included angle of the connection of the projection of the center of the fryer component and the hinge center on the horizontal plane and the projection of the center of the hot air component and the hinge center on the horizontal plane is smaller, especially, the included angle is directly arranged on the same line, thus, the length and the area of the visual window which is positioned at the front part of the air fryer, namely one side of a user, are the largest, and the condition that the user can conveniently observe food materials in the fryer component from the visual window is ensured.

2. An outer window and an inner window are arranged at the same time, the outer window is obliquely arranged, and the inner window transversely extends to form a visual cavity by surrounding with the cover body. The inner viewing window is transversely extended, so that the space is not occupied at the vertical height, the whole height of the cover body can be set to be small enough, the height of the cover body can be fully compressed, the downward movement of the gravity center of the cover body and the whole machine is ensured, and the stability is improved; meanwhile, the size of the cover body and the size of the whole machine can be reduced, the whole machine is prevented from occupying more space, and great convenience is brought to the use and storage of consumers. Through setting up the visual chamber, until cutting off the heat exchange of frying pan subassembly inside and outside, avoid the outside high temperature of lid, prevent to cause the injury to the user. Meanwhile, the visible cavity can also avoid the condensation phenomenon caused by the internal and external temperatures, and the condition that the inside of the fryer assembly cannot be normally observed due to condensation is avoided. The outer window is obliquely arranged, the arrangement of the inner window and the bottom surface of the cover body is not influenced, the height of the cover body and the whole machine is not increased, and the outer window is obliquely arranged, so that the volume of the visible cavity is increased, the partition performance of the temperature is better, and the effect is better.

3. Interior window laminating is in interior pot upper end for the lid is direct to be laminated with interior pot upper end, need not set up extra space between hot-blast subassembly and the fried pot subassembly, can directly heat the interior edible material of pot, and hot-blast functioning speed is fast, and heating space is little, and heating efficiency is high. Simultaneously, direct and interior pot laminating has reduced the connection cooperation between the processing cavity, more makes things convenient for the sealed between heating element and the fried pot subassembly, better the thermal outer hourglass of having avoided, like this, even increase the steam function, also can satisfy the purpose of avoiding steam to leak equally.

4. The outer view window and the inner view window are connected through the connecting piece, the sealing pieces are arranged between the outer view window and the inner view window, the visual cavity forms a closed cavity, and the whole structure is simple to install. The closed visual cavity can better isolate the heat exchange between the inside and the outside of the fryer component, and can also prevent steam or oil smoke generated in the processing process of the fryer component from entering the visual cavity, thereby ensuring the reliability of the visual cavity. For example, can set up interior window into the glass material, safety and sanitation performance is better, also more make things convenient for the cleanness of interior window, simultaneously can set up interior window into planar, also make things convenient for the manufacturing of interior window, and the exterior window sets up to materials such as transparent plastics, can satisfy visual demand, and simultaneously, also can be according to the molding demand of difference, set up different exterior window shapes, and interior window and exterior window pass through connecting piece erection joint, can satisfy different molding demand, the window of still absorbable different materials is the dilatational strain difference when being heated, the stress that probably receives when avoiding interior window and exterior window lug connection.

5. Keep apart hot-blast subassembly through setting up the installation department to the vertical extension of installation department, the installation department can not occupy the space of visual window, has guaranteed the effective observation area of visual window. Set up hot-blast subassembly in the installation department, better keep apart hot-blast subassembly and outside, guaranteed the safety of product promptly, avoided heating element's heat to leak again, promoted heating efficiency.

6. The interior installation department lateral wall is to articulated center shrink, make the installation department lateral wall become the step form, visual window's area has further been guaranteed, and in actual operation, the user is many in the product front side, inside the pot from top to bottom observation directly not, the oblique observation of below forward usually, with the inside shrink of installation department lateral wall, make interior visual window inwards expand, the user is when observing, can observe bigger observation area, and simultaneously, the outward vision window that the slope set up, the reflection of light that probably exists when still having avoided crossing perpendicularly with user's sight, more do benefit to the user and observe inside the pot. Furthermore, an illuminating device, such as an additional illuminating lamp, or a heating element with an illuminating function, such as a halogen tube, can be arranged inside the fryer assembly or the heating assembly to illuminate the food material inside, so that the user can observe the inside more conveniently.

7. The installation department is separated into the installation cavity by the aviation baffle, to non-processing subassembly, can set up in the installation cavity, for example the motor of drive fan, the control scheme board of control air fryer work etc. keep apart through the aviation baffle, avoid non-work subassembly by the heating, the normal work of protection product. The control part is arranged at the top of the installation part, a user can directly and conveniently control the food, the visual window is also arranged on the cover body and is arranged around the installation part, so that the user can observe the state of the food in the inner pot and control and adjust the food, the operation is visual and convenient, and the inconvenience of observing after observation is avoided. Be equipped with cold air fan in the installation cavity, can reduce the installation cavity device, avoid the heating member to see through the aviation baffle and to the high temperature that the heating leads to in the installation cavity, protect each device. The air inlet and the air outlet are further arranged, so that air convection is generated between the inside and the outside of the installation cavity, outside cold air can be injected into the installation cavity in time, inside hot air can be discharged through the air outlet, and the heat dissipation efficiency is ensured. The air intake sets up in the lateral wall, and the air outlet sets up in the back wall, because the inside air inlet of air intake, can not influence user's normal use, and the hot-blast of air outlet is discharged backward, can not influence the user and normally control the product equally. And the air inlet is far away from the air outlet, thereby avoiding the hot air at the air outlet from being sucked into the mounting cavity again and improving the cooling efficiency.

8. Lid and frame set up processing district and joining region, and the joining region is located processing district rear side, and the user directly controls processing district, for example place eat the material, control the machine, observe eating material etc. and directly control in processing district, and the joining region sets up in processing district rear side, and when the user opened the lid, the lid backward rotatory is in order to open completely fried pot subassembly, fried pot subassembly can not sheltered from, and user operating space is bigger, uses more conveniently. The radius of the fryer component is R, the distance between the center of the fryer and the hinge center is D, and D/R is more than or equal to 1.1 and less than or equal to 2. D/R's ratio sets up the undersize, then articulated center is too near apart from the fryer edge, is unfavorable for the setting of articulated shaft, and the installation between lid and the frame also has inconveniently to when the lid was opened, because articulated center is too near apart from interior pot edge, still be unfavorable for the user to controlling of interior pot, reduced user's use impression. The D/R ratio is set to be overlarge, the connecting area is arranged to be overlarge relative to the processing area, the larger space of the whole machine is occupied, the main devices of the air fryer are usually arranged in the processing area to meet the installation, and the overlarge connecting area does not have redundant installation requirements, so that the volume of the whole machine is increased. Simultaneously, pot distance is too big in the articulated centre-to-centre spacing, when opening the lid, inevitably causes hot-blast subassembly position to shift up for the focus of lid shifts up, and simultaneously, hot-blast subassembly's radius of rotation increase is unfavorable for controlling of lid stable, also makes the user need bigger operation radius space when controlling, controls the comfort level and reduces.

9. Further set up steam subassembly for the air is fried the pot and has the function of evaporating simultaneously, has enlarged the service function that the air was fried the pot, and increases to evaporate the function and need not increase the product volume very much, and the function increases swiftly, and the product practicality is better. The steam inlet of the steam delivery line is centrally located in the bottom wall of the fryer assembly such that the steam inlet is centrally located in the bottom wall of the fryer assembly and offset from the center of the hot air assembly. Firstly, steam enters the fryer assembly from the bottom wall, and the characteristic of the steam can move upwards, so that the steam entering the fryer assembly can be quickly diffused in the fryer assembly to fill the whole fryer assembly, and the processing efficiency is high; meanwhile, steam can not directly impact the hot air component on the body, the influence of the steam on the hot air component is prevented, and the steam can rapidly flow in the inner pot along the air flow by utilizing the air flow formed by the hot air component, so that the food material is heated, and the heating efficiency is high.

10. Set up the exhaust pipe way on the lid, the exhaust inlet is located the aviation baffle roof, and steam is ascending and is accomplished the processing back and discharge from the exhaust pipe way, has complied with the direction that steam naturally flows, even when the product only utilizes the function of evaporating, hot-blast subassembly is out of work, and heating member and fan can not drive and explode the inside heating of pot subassembly and vortex, and the heat and the flow direction of steam self also can satisfy the product to evaporating the support of function to heating efficiency can guarantee. And further, when the fan works, the air and the steam at the exhaust inlet can be blown away all around, more steam is pressed to circulate in the inner part of the fryer component, so that the pressure of the steam in the inner part of the fryer component is increased, a certain supercharging effect is achieved, and the heating efficiency of the steam is further improved. Exhaust import is apart from the distance at articulated center is less than the distance at hot-blast subassembly center-to-articulated center, like this, from the air explode a pot front side to articulated center on, set gradually explode a pot subassembly center (contain steam inlet), hot-blast subassembly center and exhaust import, steam is by importing to the export, can reserve sufficient time in exploding pot subassembly inside, has fully guaranteed the heating efficiency of steam.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of a controlled and stabilized air fryer in accordance with the present invention.

Fig. 2 is a partially enlarged view of a in fig. 1.

FIG. 3 is a schematic structural view of an air fryer according to a first embodiment of the present invention in an open state.

Fig. 4 is a partially enlarged view of B in fig. 3.

FIG. 5 is a schematic view of the air fryer connector structure of the present invention.

FIG. 6 is a schematic view of a second position of the air fryer connector according to the present invention.

FIG. 7 is a schematic structural view of a first embodiment of an air fryer in accordance with the present invention.

FIG. 8 is a schematic structural view of a first embodiment of an air fryer in accordance with the present invention.

FIG. 9 is a schematic structural view of a second embodiment of the air fryer in accordance with the present invention.

Fig. 10 is a partial enlarged view of C in fig. 9.

Fig. 11 is a partial enlarged view of D in fig. 9.

FIG. 12 is a schematic structural view of a third embodiment of an air fryer in accordance with the present invention.

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

1. a cover body; 111. an air deflector; 1110. a mounting ring; 1111. a first seal member; 1112. a discharge hole; 112. a fan; 113. a heating member; 114. a motor; 115. a cold air fan; 121. an outer mounting portion; 1211. fixing the ribs; 1212. a fixed table; 122. an inner mounting portion; 131. a control circuit board; 132. an air inlet; 133. an air outlet; 134. a manipulation zone; 14. a motor bracket; 140. a positioning ring; 141. fixing a column; 142. a second seal member; 2. a machine base; 200. hinging a shaft; 21. a fryer assembly; 2100. a through hole; 211. an inner pot; 2110. connecting holes; 212. a frying basket; 3. a visual window; 30. a visual cavity; 31. an inner window; 310. mounting holes; 311. a fixing plate; 3110. a fixing ring; 312. a third seal member; 313. a fourth seal ring; 3130. a sealing lip; 32. an exterior window; 321. fixing the counter bore; 322. fixing grooves; 323. fixing the surrounding edge; 33. a connecting member; 331. an upper clamping groove; 332. a lower clamping groove; 333. supporting ribs; 334. a stud; 41. a steam generator; 42. a water tank; 43. a steam line; 44. an air inlet joint; 441. a lower joint; 442. an upper joint; 45. a ball valve; 46. an air intake cover; 460. air holes are formed; 47. an exhaust gas inlet; 48. an exhaust outlet; 481. a pressure relief bin; 482. a pressure relief cover; 483. a steam outlet; 49. an exhaust pipe; 5. a stirring device; 50. a stirring body; 51. a stirring blade; 52. and (4) air holes.

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 those shown in the drawings, are only for convenience of description and 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 thus, are not to 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 meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

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 stably controlled air fryer disclosed by the invention comprises a base and a cover body hinged with the base, wherein a fryer component is arranged in the base, the fryer component comprises an inner pot, a hot air component is arranged in the cover body, the hot air component comprises an air deflector, a fan and a heating component, the fan and the heating component are positioned below the air deflector, and a transparent visual window is arranged on the cover body. During operation, the food materials are placed in the inner pot, the cover body is rotationally covered on the base, the frying pot assembly is sealed, the heating element generates heat, the fan blows air to flow through the heating element, air is heated and further blown into the inner pot, and the food materials in the inner pot are heated to finish processing. In the processing process, a user can observe the state of the food material through the visual window. The hot air assembly center is deviated from the fryer center, and the distance from the hot air assembly center to the hinge center is smaller than the distance from the fryer assembly center to the hinge center. Since the cover is in the movable state, in the present invention, as shown in fig. 1, the distances from the center of the hot air assembly to the hinge center and from the center of the fryer assembly to the hinge center are both the projection lengths in the horizontal direction, the distance from the center of the hot air assembly to the hinge center is L1, and the distance from the center of the fryer assembly to the hinge center is L, wherein L > L1. The visual window encircles hot-blast subassembly sets up and is located interior pot top, like this, the edible material processing state in the pot in convenient observation of user's accessible visual window, simultaneously, because hot-blast subassembly sets up after being partial to, is located the front side and also is the one side that the user controlled, the useful length of visual window is the longest, and effective observation area is the biggest, has promoted user's observation convenience greatly, and because area increase, length extension, the user need not to alternate observation angle and can accomplish the observation to eating the material.

The first embodiment is as follows:

as a first embodiment of the present invention, an air fryer with stable handling includes a base 2 and a cover 1, as shown in fig. 1-9, wherein the cover 1 is hinged to the base 2 by a hinge shaft 200 and can rotate around the hinge shaft 200. Be equipped with fried pot subassembly 21 in the frame 2, fried pot subassembly 21 includes interior pot 211, still be equipped with fried basket 212 in the interior pot 211, 2 upper ends of frame are equipped with and hold fried pot subassembly 21's cavity, interior pot 211 detachable place in the cavity, fried basket 212 detachable place in the interior pot 211, and for convenient getting and putting interior pot 211, interior pot 211 both sides still are equipped with the handle.

The cover body 1 comprises an installation part, the hot air assembly is arranged in the installation part and comprises an air guide plate 111, a fan 112 and a heating element 113, the fan 112 and the heating element 113 are located below the air guide plate 111, the heating element 113 and the fan 112 are isolated from the inside of the cover body 1 by the air guide plate 111, and hot air blown by the fan 112 is prevented from being directly injected into the inside of the cover body 1. The hot air assembly is located above the fryer assembly 21, the fan 112 rotates and blows air to flow through the heating element 113, so that the air is heated and is blocked by the air deflector 111 and flows into the inner pot 211 to process the food material in the inner pot 211, generally, the food material is placed on the fry basket 212, the fry basket 212 is provided with meshes for air to flow, so that the hot air passes through the bottom of the fry basket 212 and upwards through the food material to heat the food material, and the air flowing through the food material is blown by the fan 112 and passes through the heating element 113 again and is heated, thereby forming a circulation in the inner pot.

The projection length of the center of the fryer component to the center of the hinge shaft on the horizontal plane is L, and the projection length of the distance of the center of the hot air component to the center of the hinge shaft on the horizontal direction is L1, wherein L is more than L1. The center of the hot air assembly is deviated from the center of the fryer assembly, so that air in the inner pot circulates to form turbulent flow, front air flow and rear air flow impact each other, the hot air impacting each other can fully contact with food materials to heat the food materials, and the prior art has more descriptions and is not repeated. Further, set up L > L1, make the hot-blast subassembly center more be close to the articulated shaft center relatively frying a pot subassembly center, this is because, the lid is opening ground, can rotate around the articulated shaft in order to open the frying pot subassembly, along with the increase of radius of rotation, the linear velocity and the rotatory torsion increase of corresponding point, and the main quality of lid concentrates on hot-blast subassembly, with hot-blast subassembly to articulated shaft center biasing, the lid is when rotatory, hot-blast subassembly's radius of rotation is littleer, rotatory linear velocity and rotatory torsion are littleer, the user can be comparatively relaxed control the lid, the operation is also more steady in the lid opening process simultaneously. The product is not driven to shake due to the higher speed and kinetic energy. And in this application, further combine to set up the visual window that encircles for the effective observation area of visual window extends backward, has increased the effective observation area of visual window.

The installation part is divided by the air deflector 111 to form an installation cavity, a motor 114 and a cold air fan 115 are arranged in the installation cavity, a motor shaft of the motor 114 penetrates through the air deflector 111 and is used for driving the fan 112, and the cold air fan 115 is arranged at the other end of the motor 114 and is driven by the motor together. In order to prevent the user from accidentally touching the fan 112 and the heating element 113, a protective cover 116 is further disposed under the heating assembly, and the protective cover 116 shields the fan 112 and the heating element 113, and is provided with air holes so as not to affect the normal flow of air.

Still be equipped with transparent visual window 3 on the lid 1, visual window 3 encircles hot-blast subassembly sets up and is located interior pot 211 top. Thus, the user can observe the state of the food material processed in the inner pot 211 through the visual window 3. In this embodiment, the visual window 3 includes interior window 31 and exterior window 32, interior window 31 transversely extends the setting, and is preferred, and interior window 31 is the glass material, sets up to a plane form, and when lid 1 lid closed on frame 2, interior window 31 laminated mutually with interior pot 211 upper end, the condition in the pot 31 in convenient to use person's direct observation promptly, simultaneously, the interior window 31 of glass material still makes things convenient for the user to the inboard cleanness of lid 1. The outer window 32 is obliquely arranged, the outer sides of the inner window 31 and the outer window 32 are fixedly connected through a connecting piece 33, and the inner sides of the inner window and the outer window are fixedly connected with the mounting part respectively. The inner window 31, the outer window 32 and the mounting part surround to form a visual cavity 30. Preferably, the mounting portion extends in a vertical direction so that the mounting portion is columnar. Interior window 31 is inboard to be connected with the installation department bottom, outer window 32 is inboard to extend to the installation department middle section, and like this, outer window 32 will the installation department separates formation outer installation department 121 and interior installation department 122. Preferably, the side wall of the inner mounting portion 122 is more retracted than the side wall of the outer mounting portion 121, so that the side wall of the mounting portion is stepped, and further, the inner window 31 has a larger visible area than the outer window 32 in the horizontal direction, and when a user observes the conditions in the inner pan through the visible window, the user extends from an oblique viewing angle, and can directly observe the inner side of the inner window 31 and observe the inner pan from the inner side of the outer window 32, and the inner mounting portion 121 cannot be observed more from the outer window 32.

The mounting portion is further provided with a motor support 14 for fixing the motor 114, and the air deflector 111 and the heating element 113 are also fixed on the motor support 14. The outer edge of the motor support 14 is provided with a fixing column 141, the outer window 32 is provided with a fixing counter bore 321, the outer mounting portion 121 is provided with a fixing table 1212, and the fixing table 1212, the fixing counter bore 321 and the fixing column 141 are matched with each other and fixed through screws. The bottom of the outer edge of the outer mounting portion 121 is further provided with a fixing rib 1211, the outer window 32 is correspondingly provided with a fixing groove 322, and the fixing rib 1211 is inserted into the fixing groove 322 to fix the outer mounting portion 121 and the outer window 32.

The motor bracket 14 extends downwards to form a positioning ring 140, the air deflector 111 is in a horn shape with a downward opening, the lower end of the air deflector 111 extends outwards to form a mounting ring 1110, the inner window 31 is provided with a mounting hole 310, the air deflector 111 penetrates through the through hole, the inner window 31 is placed on the mounting ring 1110, and when the mounting ring 1110 is fixed on the motor bracket 14, the positioning ring 140 is in contact with the upper surface of the inner window 31 and presses the inner window 31 to position the window 31. Preferably, a first sealing member 1111 is disposed between the inner window 31 and the mounting ring 1110, and a second sealing member 142 is disposed between the inner window 31 and the positioning ring 140. The surfaces of the first sealing element 1111 and the second sealing element 142, which are attached to the fitting, are further provided with sealing ribs. When the inner window 31, the motor fixing processing 140 and the air deflector 111 are mounted in place, the sealing element ensures the mutual isolation of the visible cavity and the mounting part from the processing cavity.

As shown in fig. 4, the inner window 31 and the outer window 32 are fixedly connected by the connecting member 33. Preferably, the cover 1 further includes a fixing plate 31, and the fixing plate 31 is made of metal, such as stainless steel. Thus, the bottom surface of the cover body 1 is made of stainless steel and glass, and is convenient for a user to clean. The inboard turn-ups of fixed plate 311 forms fixed ring 3110, fixed ring 3110 and interior window 31 bottom surface are laminated mutually, the fixed plate 311 outside and connecting piece 33 fixed connection to after the installation targets in place, promote interior window 31 upper surface and connecting piece 33 and laminate mutually in order to fix interior window 31. A third sealing member 312 is disposed between the inner window 31 and the connecting member 33, and a fourth sealing member 313 is disposed between the inner window 31 and the fixing ring 3110. The fourth sealing element 313 extends downward to form a sealing lip 3130, and when the cover 1 is closed with the base 2, the sealing lip 3130 is attached to the upper end of the inner pot 211 to seal the inner pot and the lower window. Preferably, the upper end of the inner pot 211 is provided with an outward flange, and the sealing lip 3130 is attached to the flange. The upper surface and the lower surface of the outer edge of the connecting piece 33 are respectively provided with an upper clamping groove 331 and a lower clamping groove 332, the bottom of the external window 32 is provided with an installation surrounding edge 323, and the installation surrounding edge 323 is inserted into the upper clamping groove 331 to fix the external window 32. The outer edge of the fixing plate 311 is inserted into the lower engaging groove 332, a support rib 333 and a stud 334 are further disposed on the inner side of the lower engaging groove 332, and the fixing plate 311 is fixed to the connecting member 33 through the stud 334.

As shown in fig. 7 and 8, the cover 1 and the base 2 respectively include a processing area and a connection area, and as shown by arrows, a normal user operates the air fryer at the front side, so the processing area is disposed at the front side of the air fryer, and the connection area is disposed at the rear side of the processing area, i.e., away from the user side, so that when the cover is in an open state, the cover is inclined toward the connection area, thereby ensuring that the fryer assembly in the processing area can be fully opened, and facilitating the normal operation of the user.

In this embodiment, the fryer assembly is barrel-shaped, the processing area of the base 2 is cylindrical to match with the processing area, and the connecting area of the base 2 is cylindrical to match with the processing area and is tangentially connected to the outer side to form the main shape of the base 2. The connecting area of the cover body 1 is in a cylindrical shape with the same radius as that of the connecting area of the base 2, and the processing area of the cover body 1 is in a cylindrical shape with the same radius as that of the connecting area, is tangentially connected at the outer side to form the main body shape of the cover body 1, and forms the mounting part. The visual window 3 is arranged around the processing area of the cover body 1, the bottom of the visual window is matched with the shape of the base 2, and the upper part of the visual window is connected with the cover body, so that the visual window 3 is in an irregular curved shape. Specifically, the outer window 32 is in a curved shape, and the inner window 31 is in a flat shape.

The effective radius of the fryer component is R, the projection distance between the center of the fryer component and the center of the hinge shaft on the horizontal plane is L, and L/R is more than or equal to 1.1 and less than or equal to 2. The advantages of such an arrangement are: the linking area sets up in the rear side of frame, and when opening the lid, the lid is rotatory backward, from the user angle, explodes pot subassembly and can fully open, and convenience of customers is to eating the control of material in exploding pot subassembly. If the LR sets up the undersize, then the joining region of lid and frame is distinguished with the processing and is not obvious, explodes the outside of pot subassembly and articulated shaft center distance undersize, when the lid was opened, lid and the separation of exploding the pot subassembly were not enough, was unfavorable for the user to eating the control of material in the frying pot subassembly to, lid and exploding pot subassembly relative distance are nearer, and the user is when eating the material in controlling the frying pot subassembly, touched hot-blast subassembly easily, exists by the danger of hot-blast subassembly injury. If the L/R is set to be too large, the rotating radius of the cover body is too large, particularly the rotating radius of the hot air assembly is large, the occupied space for opening the cover body is large, the torsion force received in the opening process of the cover body and the kinetic energy caused by the torsion force are large, namely, the machine is not controlled, the shaking is increased when the product is opened, and the whole machine is unstable in work.

As shown in fig. 7, the projection of the air fryer on the horizontal plane is a schematic diagram, the projection of the center of the hinge shaft 200 on the horizontal plane is O, the projection of the center of the hot air assembly on the horizontal plane is P, the projection of the center of the fryer assembly on the horizontal plane is Q, the connecting line of the center of the hot air assembly and the hinge center is OP, the connecting line of the center of the fryer assembly and the hinge center is OQ, the included angle between the center of the fryer assembly and the hinge center is α, and α is not more than 10 °. Preferably, α is 0, that is, the projections of the fryer assembly center, the hot air assembly center and the hinge joint center on the horizontal plane are on a same line. The advantages of such an arrangement are: the included angle between the two is smaller, and particularly the included angle is directly arranged on the same line, so that the length and the area of the visual window which is positioned at the front part of the air fryer, namely one side of a user, are the largest, and the user can conveniently observe food materials in the fryer assembly from the visual window. If the included angle is set to be too large, although the area of the visual window is not influenced, the visual window deviates from the position of a user, so that the user is inconvenient to observe; simultaneously, still make hot-blast subassembly skew to one side relatively, the focus offset, when opening the lid, the hot-blast subassembly of offset makes the lid rock the increase, and then makes the product place unstably, controls the product just, has the risk that the product topples over even.

The installation department top sets up to the plane, the installation department front side sets up controls district 134, the inside correspondence of installation cavity is controlled district 134 and is equipped with control circuit board 131. In this embodiment, the control area is set as a touch switch, and only when the product is powered on, the corresponding function is displayed in the control area. The installation cavity is equipped with air intake 132 and air outlet 133 with outside intercommunication, air intake 132 set up in for two, are located respectively installation department top both sides, air outlet 133 is located the installation department rear side. The cold air fan 115 sucks in external cold air from the air inlet 132, and discharges the cold air from the air outlet 133 after the cold air flows through the components such as the control circuit board 131 and the motor 114, so that influence on the components due to overhigh temperature in the installation cavity is avoided. The air inlet 132 and the air outlet 133 can be set to be small holes uniformly distributed, so that danger caused by the fact that the air inlet or the air outlet extends into the installation cavity is avoided, and insects and the like can be prevented from climbing in the installation cavity. The air inlets are arranged on two sides, and cold air can directly flow to the circuit board and the motor after entering, so that the cooling efficiency is improved; the air outlet is arranged at the rear side, the exhausted hot air cannot influence a user, and meanwhile, the exhausted hot air is prevented from being sucked into the installation cavity again.

The advantages of the embodiment are: through with hot-blast subassembly with fry the skew setting of pot subassembly to more being close to articulated shaft center with hot-blast subassembly and setting up, satisfying the vortex improvement that hot-blast subassembly off-centre brought. In particular, the effective use area of the visible window at the position of the user is increased, so that the user can conveniently observe the state in the processing cavity through the visible window, and can completely observe the inside of the fryer assembly without changing the visual angle. The increase of observation area, visual window need not to increase again in the direction of height to make the reduction of lid and overall height, compressed the space that the complete machine occupy promptly, still make the effective utilization ratio of processing chamber increase, avoided the waste of heat energy. The reduction of lid height to and hot-blast subassembly is partial to the articulated shaft setting, makes hot-blast subassembly more nearly from the articulated shaft distance, and when opening the lid, moment and the linear velocity that hot-blast subassembly received are littleer, and kinetic energy is little, and the person of facilitating the use is to controlling of lid, and lid and whole are more steady when controlling simultaneously.

It can be understood that the base 2 can also be set to be a column with a square or oval cross section, or a table with a large top and a small bottom, a small top and a large bottom, etc., and the appearance requirements can be realized according to different shapes.

It will be appreciated that the viewing window is provided as a single layer.

It should be understood that the inner window extends transversely, which means that the main body is arranged transversely, but not completely arranged as a plane, for example, a curved surface with a certain curvature, or an undulated shape, etc. may be arranged.

It is understood that the viewing window is arranged around the hot air assembly, not only meaning complete accommodation in the projection direction, but also being arranged in a "C" shape, i.e. mainly partially accommodating.

As can be understood, the visual window is attached to the upper end of the inner pot through a sealing element; or the visible window extends into the fryer assembly and is attached to the inner pot.

It can be understood that the inner window is directly connected with the outside of the outer window and is fixedly connected by ultrasonic, welding, screw connection and the like.

Example two:

as a second embodiment of the present invention for a controlled stable air fryer, as shown in FIGS. 9-11, the difference from the first embodiment is that: the air fryer also includes a steam assembly.

As shown in fig. 9, the air fryer further comprises a steam assembly including a steam generator 41 and a steam delivery line 43 disposed on the housing 2. Preferably, the steam assembly further includes a water tank 42 mounted to the housing and a water pump that draws water from the water tank 42 and into the steam generator 41 to generate steam that flows into the fryer assembly through a steam delivery line 43.

9-11, the fryer assembly bottom is provided with a through hole 2100, the through hole 2100 being located in the center of the fryer assembly bottom wall. Therefore, when steam flows in, the steam can uniformly and quickly flow into the frying pan so as to quickly process the food materials. The end of the steam delivery pipe 43 is provided with an air inlet joint 44 passing through the through hole 2100. The air inlet joint 44 includes a lower joint 441 and an upper joint 442, the lower joint 441 is connected to the bottom wall of the fryer assembly, the inner pot 211 is provided with a connection hole 2110 corresponding to the through hole 2100, the steam delivery pipeline 43 further includes a ball valve 45 and an air inlet cover 46 which are provided on the inner pot 211, the air inlet cover 46 and the upper joint 442 are respectively located at two sides of the inner pot 211 and are mutually fixed to the connection hole 2110 through threads, the upper end of the upper joint 442 is provided with an inclined tapered surface, and the ball valve 45 is located at the upper end of the upper joint 442 and normally closes the passage of the upper joint 442. Air holes 460 uniformly distributed along the whole body are arranged around the air inlet cover 46, so that steam can be uniformly dispersed around.

The cover body 1 is further provided with a steam discharging pipeline, the steam discharging pipeline comprises an exhaust inlet 47, an exhaust outlet 48 and an exhaust pipe 49, and the exhaust pipe 49 is connected with the exhaust inlet 47 and the exhaust outlet 48. The exhaust inlet 47 is located on the top wall of the air deflector 111, the top wall of the air deflector 111 is provided with an exhaust hole 1112, and the exhaust inlet 47 is hermetically mounted on the exhaust hole 1112. The exhaust outlet 48 comprises a pressure relief bin 481 and a pressure relief cover 482, and a steam outlet 483 is arranged on the pressure relief cover 482. The pressure relief bin 481 is in a funnel shape with a large upper part and a small lower part, the bottom of the pressure relief bin 481 is communicated with the exhaust inlet 47 through a steam pipeline 49, the upper part of the pressure relief bin 481 is shielded by a pressure relief cover 482, and the pressure relief cover 482 is provided with a steam outlet 483 which is arranged obliquely backwards and upwards. Steam gets into the steam exhaust pipe by exhaust inlet 47, through steam pipe 49 entering pressure release bin 481 in, because the increase of volume, steam can condense in pressure release bin 481 to avoid the inconvenience that causes when too much steam is discharged, unnecessary steam further discharges through steam outlet 483, steam outlet 483 sets up to the rear, can not cause the influence to the user, and the slope is upwards, makes steam can discharge fast and dissipate along ascending direction.

The projection distance of the center of the fryer component to the hinge shaft on the horizontal plane is L, namely the distance of the air inlet of the steam conveying pipeline to the center of the hinge shaft is L, the projection distance of the center of the hot air component to the hinge shaft on the horizontal plane is L1, the projection distance of the center of the exhaust inlet to the center of the hinge shaft on the horizontal plane is L2, the projection span of the center of the exhaust outlet to the center of the hinge shaft on the horizontal plane is L3, and L is more than L1 and L2 and L3. Like this, steam is injected into by steam conveying pipeline and explodes a pot subassembly after, by exploding a pot subassembly center to homodisperse all around, steam nature is ascending and is spread simultaneously for steam can pour into fast and explode a pot subassembly inside and process edible material, and hot-blast subassembly confidence sets up, and the steam that the center was admitted air can not directly strike hot-blast subassembly, has avoided hot-blast subassembly rapid ageing under steam shock, has guaranteed hot-blast subassembly's normal life. And the hot-blast subassembly of eccentric settings when the processing state is bloied to needs, can catch up with the function of carrying out the vortex to steam equally to make steam can more efficient process the edible material. And the exhaust inlet is closer to the center of the hinge shaft relative to the hot air component, so that the exhaust inlet and the steam inlet are relatively farther away from each other, the steam runs relatively longer in the fryer component, and the steam use efficiency is higher. And when hot-blast subassembly during operation, because the exhaust inlet is located the aviation baffle roof, the fan blows steam and makes steam keep away from the exhaust inlet for steam is difficult directly to be discharged from the exhaust inlet, makes steam form certain pressure in frying a pot subassembly inside, and the processing is accomplished to eating the material to the high efficiency. Exhaust outlet is closer to the articulated shaft than exhaust inlet on the horizontal plane for exhaust outlet is farther apart from the user, can not cause the influence to the user by exhaust outlet exhaust steam, and simultaneously, discharges behind the steam outlet slant, keeps away from the user more, uses safe and reliable more.

The advantages of such an arrangement are: the air fryer is additionally provided with the steam assembly, the using function of a product is enlarged, the air fryer not only has a baking function, but also can realize different combinations of single steaming, single baking, baking and steaming and the like, and the satisfaction degree of a user is improved. The steam inlet is arranged at the center of the frying pan assembly, so that steam can be conveniently and quickly injected into the frying pan assembly in a dispersing manner, and the steaming processing efficiency is improved. The heating assembly and the center of the frying pan assembly are also eccentrically arranged at the steam inlet, so that the turbulence effect is achieved, and the direct impact of steam on the heating assembly can be prevented. And the heating component is relatively close to the center of the hinge shaft, so that the visual area of the visual window at the position of a user is ensured. Preferably, the visual window comprises an outer visual window and an inner visual window and forms a closed visual cavity, the visual cavity can obstruct the temperature difference inside and outside the processing cavity, the condensation phenomenon caused by the temperature difference is avoided, and the observation reliability is ensured.

Example three:

as a second embodiment of the present invention, a stable air fryer, as shown in fig. 12, differs from the second embodiment in that: the air fryer also comprises a stirring device.

As shown in fig. 12, the air fryer further includes a stirring device 5, and the stirring device 5 is disposed in the inner pot 211 and is coaxial with the steam delivery pipe. The stirring device 5 comprises a hollow stirring body 50 and stirring blades 51, and air holes 52 are further formed in the upper end of the stirring body 50. The steam delivery pipeline comprises a lower joint 441 and an upper joint 442, the lower joint 441 is connected with the bottom wall of the fryer assembly, the upper joint 442 is fixed on the bottom wall of the inner pot, and the stirring device 5 is sleeved on the upper joint 442 through the stirring body 50 and is communicated with the steam delivery pipeline.

The steam conveying pipeline is a hollow transmission pipe, the transmission pipe is driven by a driving device and rotates, and the stirring device 5 is further driven to rotate in the inner pot so as to stir and mix food materials in the inner pot. Therefore, the hollow transmission pipe realizes the transmission of steam, and meanwhile, the transmission of power is realized, and the space and structure utilization rate is high.

The advantages of such an arrangement are: the air fryer is additionally provided with the steam assembly, so that the using function of the product is expanded. And further utilize the steam transmission pipeline to realize power transmission in step to further add agitating unit in frying a pot subassembly, like this in the course of working, agitating unit can stir and mix eating the material, when avoiding eating the material and fixing in same position or overlapping each other, machining efficiency is poor. The stirring device is arranged at the center of the fryer component, the stress is uniform all around during stirring, and the biased situation of the material can not occur.

It can be understood that the air fryer also can be provided with the stirring device independently without a steam component, so that the stirring device only depends on the driving device to rotate, stir and mix the food materials, and the processing can be realized.

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 variations and modifications made by the present invention are covered by the scope of the claims of the present invention, which is not limited by the examples herein.

Claims (10)

1. The utility model provides a control stable air and fry pot, including the frame and with frame articulated lid, be equipped with the fried pot subassembly in the frame, the fried pot subassembly includes interior pot, is equipped with hot-blast subassembly in the lid, hot-blast subassembly includes aviation baffle, fan and heating member are located the aviation baffle below is equipped with transparent visual window on the lid, its characterized in that, hot-blast subassembly center skew fry pot subassembly center setting, just hot-blast subassembly center is less than fried pot subassembly center to articulated center distance to the articulated center distance, the visual window encircles hot-blast subassembly sets up and is located interior pot top.

2. The air fryer according to claim 1, wherein said viewing window comprises an outer viewing window and an inner viewing window, said outer viewing window being disposed in an inclined configuration, said inner viewing window extending transversely, said outer viewing window, said inner viewing window and said cover enclosing a viewing chamber.

3. The air fryer of claim 2, wherein said inner window is attached to said inner pot upper end.

4. The air fryer according to claim 2, wherein said cover includes a connector, said outer window and said inner window are connected by said connector, and a sealing member is disposed between said inner window and said outer window and between said cover and said connector, respectively, such that said viewing cavity forms a closed cavity.

5. The air fryer according to claim 2, wherein the cover includes an installation portion, the hot air assembly is disposed in the installation portion, the installation portion extends vertically, the outer window is connected to the outer side of the inner window, and the inner side of the outer window is connected to the installation portion, so that the outer window, the inner window and the installation portion form a visual cavity.

6. The air fryer of claim 5, wherein said mounting portion includes an outer mounting portion and an inner mounting portion positioned within said viewing chamber, said inner mounting portion side wall being narrower toward said hinge center than said outer mounting portion side wall, such that said mounting portion side wall is stepped.

7. The air fryer according to claim 5, wherein the mounting portion is partitioned by the air deflector to form a mounting cavity, a control area is provided at a top of the mounting portion, the mounting cavity is provided with a circuit board and a cooling fan, the mounting cavity is provided with an air inlet and an air outlet which are communicated with the outside, the air inlet is provided at a side wall of the mounting portion, and the air outlet is provided at a rear wall of the mounting portion.

8. The air fryer according to claim 1, wherein said cover and said housing each comprise a processing area and a connecting area, said connecting area being disposed behind said processing area, said fryer assembly and said hot air assembly being disposed in said processing area, said fryer assembly having an effective radius R, said fryer assembly having a center spaced from said hinge center by a distance L, 1.1 ≤ L/R ≤ 2.

9. The air fryer of claim 1, further comprising a steam assembly including a steam generator and a steam delivery conduit disposed in said base, said fryer assembly having a through hole for passage of said steam delivery conduit, said through hole being centrally located in a bottom wall of said fryer assembly.

10. The air fryer of claim 9, wherein said cover further comprises a steam vent line, said steam vent line comprising an exhaust inlet, an exhaust pipe and an exhaust outlet, said exhaust inlet being located on said top wall of said air deflector, said exhaust inlet being spaced from said hinge center a distance less than a distance from a center of said hot air assembly to said hinge center.

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